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Spanish Society for Immunology. The Spanish Society for Immunology (Sociedad Española de Inmunología, SEI) is a legally recognized professional non-profit organization in Spain, dedicated to promote and support excellence in research, scholarship and clinical practice in immunology. It has above 1.000 members in the field of health, research, teaching and industry, almost all Spanish, but also Latin American. It was founded in 1975 by Fernando Ortiz Masllorens.
Every year the society organizes national congresses in different Spanish cities and publishes a scientific journal called Inmunología, founded in 1982, a quarterly publication in Spanish and English on the biology, physiology and pathology of the immune system.
MISSION A medical-scientific society that promotes the development and advancement of Immunology as a science of life and health, and defends the scientific and professional interests of its members.
VISION To be the nucleus for establishing professional networks, the forum for scientific and academic debate on immunology and to be a point of reference for institutions and organisations in all matters relating to Immunology. We want immunology to be visible and accessible to the whole population. We seek to promote integration and multidisciplinarity with societies and groups related to Immunology.
VALUES All this is to be achieved on the basis of scientific evidence, professional responsibility, social awareness and present and future needs. The Society will seek parity and inclusiveness and will be governed, for the development of Immunology, with transparency, independence and integrity.
Society federated with EFIS (European Federation of Immnunolgical Societies), IUIS (International Union of Immunological Societies), FOCIS (Federation Of Clinical Immunology Societies), FACME (Federación de Asociaciones Cientifico Médicas Españolas) and COSCE (Confederación de Sociedades Científicas de España).
References
Immunology professional associations
Medical and health organisations based in Spain
Organizations established in 1975
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Government Medical College, Nizamabad. Government Medical College also Nizamabad Medical College is a medical college located in Nizamabad, Telangana, India. It began its academic year from 2013-14. It is affiliated to Kaloji Narayana Rao University of Health Sciences.
History
It received clearance from Medical Council of India to start its academic year from year 2013-14 with 100 seats for MBBS.
The college also has DNB Seats in various Broad speciality courses like General Medicine, General Surgery, Obstetrics & Gynaecology, Anesthesia and Paediatrics (updated as per July-17 session).
See also
Government General Hospital, Nizamabad
Education in India
Literacy in India
List of institutions of higher education in Telangana
Medical Council of India
References
External links
Medical colleges in Telangana
Nizamabad, Telangana
2013 establishments in Telangana
Universities and colleges established in 2013
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Parasite (journal). Parasite is a peer-reviewed open access scientific journal covering all aspects of human and animal parasitology. The journal publishes reviews, articles, and short notes. It is published by EDP Sciences and is an official journal of the Société Française de Parasitologie (). It is published by EDP Sciences and the editor-in-chief is Jean-Lou Justine (National Museum of Natural History, Paris). The journal was established in 1923 as Annales de Parasitologie Humaine et Comparée and obtained its current title in 1994, with volume numbering restarting at 1.
Abstracting and indexing
The journal is abstracted and indexed in:
According to the Journal Citation Reports, the journal has a 2023 impact factor of 2.4, ranking it 16th out of 45 journals in the category "Parasitology".
References
External links
French Society of Parasitology
Creative Commons Attribution-licensed journals
Open access journals
Academic journals established in 1923
English-language journals
Parasitology journals
EDP Sciences academic journals
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Periodic travelling wave. In mathematics, a periodic travelling wave (or wavetrain) is a periodic function of one-dimensional space that moves with constant speed. Consequently, it is a special type of spatiotemporal oscillation that is a periodic function of both space and time.
Periodic travelling waves play a fundamental role in many mathematical equations, including self-oscillatory systems,
excitable systems and
reaction–diffusion–advection systems.
Equations of these types are widely used as mathematical models of biology, chemistry and physics, and many examples in phenomena resembling periodic travelling waves have been found empirically.
The mathematical theory of periodic travelling waves is most fully developed for partial differential equations, but these solutions also occur in a number of other types of mathematical system, including integrodifferential equations,
integrodifference equations,
coupled map lattices
and cellular automata.
As well as being important in their own right, periodic travelling waves are significant as the one-dimensional equivalent of spiral waves and target patterns in two-dimensional space, and of scroll waves in three-dimensional space.
History of research
While periodic travelling waves have been known as solutions of the wave equation since the 18th century, their study in nonlinear systems began in the 1970s. A key early research paper was that of Nancy Kopell and Lou Howard which proved several fundamental results on periodic travelling waves in reaction–diffusion equations. This was followed by significant research activity during the 1970s and early 1980s. There was then a period of inactivity, before interest in periodic travelling waves was renewed by mathematical work on their generation, and by their detection in ecology, in spatiotemporal data sets on cyclic populations. Since the mid-2000s, research on periodic travelling waves has benefitted from new computational methods for studying their stability and absolute stability.
Families
The existence of periodic travelling waves usually depends on the parameter values in a mathematical equation. If there is a periodic travelling wave solution, then there is typically a family of such solutions, with different wave speeds. For partial differential equations, periodic travelling waves typically occur for a continuous range of wave speeds.
Stability
An important question is whether a periodic travelling wave is stable or unstable as a solution of the original mathematical system. For partial differential equations, it is typical that the wave family subdivides into stable and unstable
parts.
For unstable periodic travelling waves, an important subsidiary question is whether they are
absolutely or convectively unstable, meaning that there are or are not stationary growing linear modes. This issue has only been resolved for a few partial differential equations.
Generation
A number of mechanisms of periodic travelling wave generation are now well established. These include:
Heterogeneity: spatial noise in parameter values can generate a series of bands of periodic travelling waves. This is important in applications to oscillatory chemical reactions, where impurities can cause target patterns or spiral waves, which are two-dimensional generalisations of periodic travelling waves. This process provided the motivation for much of the work on periodic travelling waves in the 1970s and early 1980s. Landscape heterogeneity has also been proposed as a cause of the periodic travelling waves seen in ecology.
Invasions, which can leave a periodic travelling wave in their wake. This is important in the Taylor–Couette system in the presence of through flow, in chemical systems such as the Belousov–Zhabotinsky reaction and in predator-prey systems in ecology.
Domain boundaries with Dirichlet or Robin boundary conditions. This is potentially important in ecology, where Robin or Dirichlet conditions correspond to a boundary between habitat and a surrounding hostile environment. However definitive empirical evidence on the cause of waves is hard to obtain for ecological systems.
Migration driven by pursuit and evasion. This may be significant in ecology.
Migration between sub-populations, which again has potential ecological significance.
In all of these cases, a key question is which member of the periodic travelling wave family is selected. For most mathematical systems this remains an open problem.
Spatiotemporal chaos
It is common that for some parameter values, the periodic travelling waves arising from a wave generation mechanism are unstable. In such cases the solution usually evolves to spatiotemporal chaos. Thus the solution involves a spatiotemporal transition to chaos via the periodic travelling wave.
Lambda–omega systems and the complex Ginzburg–Landau equation
There are two particular mathematical systems that serve as prototypes for periodic travelling waves, and which have been fundamental to the development of mathematical understanding and theory. These are the "lambda-omega" class of reaction–diffusion equations
() and the complex Ginzburg–Landau equation.
(A is complex-valued). Note that these systems are the same if , and . Both systems can be simplified by rewriting the equations in terms of the amplitude (r or |A|) and the phase (arctan(v/u) or arg A). Once the equations have been rewritten in this way, it is easy to see that solutions with constant amplitude are periodic travelling waves, with the phase being a linear function of space and time. Therefore, u and v, or Re(A) and Im(A), are sinusoidal functions of space and time.
These exact solutions for the periodic travelling wave families enable a great deal of further analytical study. Exact conditions for the stability of the periodic travelling waves can be found, and the condition for absolute stability can be reduced to the solution of a simple polynomial. Also exact solutions have been obtained for the selection problem for waves generated by invasions
and by zero Dirichlet boundary conditions.
In the latter case, for the complex Ginzburg–Landau equation, the overall solution is a stationary Nozaki-Bekki hole.
Much of the work on periodic travelling waves in the complex Ginzburg–Landau equation is in the physics literature, where they are usually known as plane waves.
Numerical computation of periodic travelling waves and their stability
For most mathematical equations, analytical calculation of periodic travelling wave solutions is not possible, and therefore it is necessary to perform numerical computations. For partial differential equations, denote by x and t the (one-dimensional) space and time variables, respectively. Then periodic travelling waves are functions of the travelling wave variable z=x-c t. Substituting this solution form into the partial differential equations gives a system of ordinary differential equations known as the travelling wave equations. Periodic travelling waves correspond to limit cycles of these equations, and this provides the basis for numerical computations. The standard computational approach is numerical continuation of the travelling wave equations. One first performs a continuation of a steady state to locate a Hopf bifurcation point. This is the starting point for a branch (family) of periodic travelling wave solutions, which one can follow by numerical continuation. In some (unusual) cases both end points of a branch (family) of periodic travelling wave solutions are homoclinic solutions, in which case one must use an external starting point, such as a numerical solution of the partial differential equations.
Periodic travelling wave stability can also be calculated numerically, by computing the spectrum. This is made easier by the fact that the spectrum of periodic travelling wave solutions of partial differential equations consists entirely of essential spectrum.
Possible numerical approaches include Hill's method and numerical continuation of the spectrum. One advantage of the latter approach is that it can be extended to calculate boundaries in parameter space between stable and unstable waves
Software: The free, open-source software package Wavetrain http://www.ma.hw.ac.uk/wavetrain is designed for the numerical study of periodic travelling waves.
Using numerical continuation, Wavetrain is able to calculate the form and stability of periodic travelling wave solutions of partial differential equations, and the regions of parameter space in which waves exist and in which they are stable.
Applications
Examples of phenomena resembling periodic travelling waves that have been found empirically include the following.
Many natural populations undergo multi-year cycles of abundance. In some cases these population cycles are spatially organised into a periodic travelling wave. This behaviour has been found in voles in Fennoscandia and Northern UK, geometrid moths in Northern Fennoscandia, larch budmoths in the European Alps and red grouse in Scotland.
In semi-deserts, vegetation often self-organises into spatial patterns. On slopes, this typically consists of stripes of vegetation running parallel to the contours, separated by stripes of bare ground; this type of banded vegetation is sometimes known as Tiger bush. Many observational studies have reported slow movement of the stripes in the uphill direction. However, in a number of other cases the data points clearly to stationary patterns, and the question of movement remains controversial. The conclusion that is most consistent with available data is that some banded vegetation patterns move while others do not. Patterns in the former category have the form of periodic travelling waves.
Travelling bands occur in oscillatory and excitable chemical reactions. They were observed in the 1970s in the Belousov–Zhabotinsky reaction and they formed an important motivation for the mathematical work done on periodic travelling waves at that time. More recent research has also exploited the capacity to link the experimentally observed bands with mathematical theory of periodic travelling waves via detailed modelling.
Periodic travelling waves occur in the Sun, as part of the solar cycle. They are a consequence of the generation of the Sun's magnetic field by the solar dynamo. As such, they are related to sunspots.
In hydrodynamics, convection patterns often involve periodic travelling waves. Specific instances include binary fluid convection and heated wire convection.
Patterns of periodic travelling wave form occur in the "printer's instability", in which the thin gap between two rotating acentric cylinders is filled with oil.
See also
Plane wave
Reaction–diffusion system
Wave
References
Wave mechanics
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Computational Biology and Chemistry. Computational Biology and Chemistry is a peer-reviewed scientific journal published by Elsevier covering all areas of computational life sciences. The current editors-in-chief are Wentian Li (The Feinstein Institute for Medical Research) and Donald Hamelberg (Georgia State University). The journal was established in 1976 as Computers & Chemistry, with DeLos F. DeTar (Florida State University) as its first editor. It obtained its current title in 2003 under the editorship of Andrzej K Konopka and James Crabble (University of Bedfordshire).
Abstracting and indexing
The journal is abstracted and indexed in:
According to the Journal Citation Reports, the journal had a 2011 impact factor of 1.551, ranking it 42nd out of 85 journals in the category "Biology" and 36th out of 99 journals in the category "Computer Science, Interdisciplinary Applications"
References
External links
Bioinformatics and computational biology journals
Academic journals established in 1976
English-language journals
Elsevier academic journals
7 times per year journals
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President of the Royal Astronomical Society. The president of the Royal Astronomical Society (prior to 1831 known as President of the Astronomical Society of London) chairs the Council of the Royal Astronomical Society (RAS) and its formal meetings. They also liaise with government organisations (including the Department for Business, Innovation and Skills and the UK Research Councils), similar societies in other countries, and the International Astronomical Union on behalf of the UK astronomy and geophysics communities. Future presidents serve one year as President Elect before succeeding the previous president.
The first president was William Herschel in 1821, though he never chaired a meeting. Since then the post has been held by many distinguished astronomers. The post has generally had a term of office of two years, but some holders resigned after one year e.g. due to poor health. Francis Baily and George Airy were elected a record of four times each. Airy was additionally appointed by Council for a partial term, so served as President a total of five times, more than anyone else. Since 1876 no-one has served for more than two years in total.
Presidents
Further reading
References
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SEVENDIP. SEVENDIP, which stands for Search for Extraterrestrial Visible Emissions from Nearby Developed Intelligent Populations, was a project developed by the Berkeley SETI Research Center at the University of California, Berkeley that used visible wavelengths to search for extraterrestrial life's intelligent signals from outer space.
Between 1997 and 2007, SEVENDIP employed a 30-inch automated telescope located in Lafayette, California, to scan the sky for potential optical interstellar communications in the nanosecond time-scale laser pulses. Another instrument was mounted on Berkeley's 0.8-meter automated telescope at Leuschner Observatory. Their sensors have a rise time of 0.7 ns and are sensitive to 300 - 700 nm wavelengths.
The target list included mostly nearby F, G, K and M stars, plus a few globular clusters and galaxies. The Leuschner pulse search examined several thousand stars, each for approximately one minute or more.
References
Search for extraterrestrial intelligence
Interstellar messages
University of California, Berkeley
Science and technology in the San Francisco Bay Area
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Wentian Li. Wentian Li is a bioinformatician. He is co-editor-in-chief of Computational Biology and Chemistry and member of the editorial board of the Journal of Theoretical Biology. Li is an investigator at The Feinstein Institute for Medical Research.
Li received his BS in Physics from Beijing University in 1982 and PhD in Physics and Complex Systems from Columbia University in 1989.
Notable Work
In 1992 Li published a short paper proving that Zipf's Law was not a deep law in natural language, but rather that any randomly generated sequence of symbols would exhibit Zipf's Law if you looked at the distribution of words by rank.
References
Living people
Year of birth missing (living people)
Chinese bioinformaticians
Academic journal editors
Peking University alumni
Columbia University alumni
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Joe Vinen. William Frank Vinen (15 February 1930 – 8 June 2022) was a British physicist specialising in low temperature physics.
Career
Vinen was born on 15 February 1930, the son of Gilbert Vinen and his wife Olive Maud Vinen, née Roach. After Watford Grammar School, he attended Clare College, Cambridge, completing a doctorate (PhD) in 1956. He was a Research Fellow there from 1955 to 1958, when he became a Fellow at Pembroke College, Cambridge. In 1962, he was appointed to a Chair of Physics at Birmingham University. He was appointed to the Poynting Chair in 1973. He served as Head of Department from 1973 until 1981, and retired from the University in 1997.
Awards and honours
Vinen was elected a Fellow of the Royal Society (FRS) in 1973. His certificate of election reads:
He was awarded the Rumford Medal in 1980 in "recognition of his discovery of the quantum of circulation in superfluid helium and his development of new techniques for precise measurements within liquid helium."
Personal life
In 1960, Vinen married Susan-Mary Audrey Master; they had one son, Richard, and one daughter, Katie, and lived in Birmingham.
References
1930 births
2022 deaths
20th-century British physicists
Fellows of the Royal Society
Members of Academia Europaea
Academics of the University of Birmingham
Alumni of Clare College, Cambridge
Fellows of Pembroke College, Cambridge
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Solar particle event. In solar physics, a solar particle event (SPE), also known as a solar energetic particle event or solar radiation storm, is a solar phenomenon which occurs when particles emitted by the Sun, mostly protons, become accelerated either in the Sun's atmosphere during a solar flare or in interplanetary space by a coronal mass ejection shock. Other nuclei such as helium and HZE ions may also be accelerated during the event. These particles can penetrate the Earth's magnetic field and cause partial ionization of the ionosphere. Energetic protons are a significant radiation hazard to spacecraft and astronauts.
Description
SPEs occur when charged particles in the Sun's atmosphere are accelerated to extremely high velocities. These charged particles, referred to as solar energetic particles, can escape into interplanetary space where they follow the interplanetary magnetic field.
When solar energetic particles interact with the Earth's magnetosphere, they are guided by the Earth's magnetic field towards the North and South poles where they can penetrate into the upper atmosphere.
Cause
The physical mechanism behind the acceleration of solar energetic particles leading up to SPEs is currently debated. However, SPEs can generally be divided into two classes
Gradual events
Gradual SPEs are thought to involve the acceleration of particles by shocks driven by coronal mass ejections in the upper corona. They are associated with type II radio bursts and are characterized by elemental abundances, charge states, and temperatures similar to that of the ambient corona. These events produce the highest particle intensities near Earth.
Impulsive events
Impulsive SPEs are thought to involve the acceleration of particles mostly by processes associated with magnetic reconnection and wave-particle interactions at the locations of solar flares. They are associated with short-duration flare emissions at low altitudes and type III radio bursts. They are less intense near Earth than gradual events.
An additional hybrid class has been identified which involves characteristics of both gradual and impulsive events.
Terrestrial effects
Protons accelerated during an SPE normally have insufficient energy to penetrate the Earth's magnetic field. However, during unusually strong flares, protons can be accelerated to sufficient energies to reach the Earth's magnetosphere and ionosphere around the North Pole and South Pole.
Polar cap absorption events
Energetic protons that are guided into the polar regions collide with atmospheric constituents and release their energy through the process of ionization. The majority of the energy is deposited in the extreme lower region (D-region) of the ionosphere (around 50–80 km in altitude). This area is particularly important to ionospheric radio communications because this is the area where most of the absorption of radio signal energy occurs. The enhanced ionization produced by incoming energetic protons increases the absorption levels in the lower ionosphere and can have the effect of completely blocking all ionospheric radio communications through the polar regions. Such events are known as polar cap absorption events. These events commence and last as long as the energy of incoming protons at approximately greater than 10 MeV (million electron volts) exceeds roughly 10 pfu (particle flux units or particles sr−1 cm−2 s−1) at geosynchronous satellite altitudes.
Polar cap absorption events and the associated HF radio blackout pose unique problems to commercial and military aviation. Routes that transit polar regions, especially above about 82-degrees north latitude, can only rely on HF radio communications. Hence, if polar cap absorption events are ongoing or forecast, commercial airlines are required to redirect their routes such that HF communications remain viable.
Ground level enhancements
Extremely intense SPEs capable of producing energetic protons with energies in excess of 200 MeV can increase neutron count rates at ground levels through secondary radiation effects. These rare events are known as ground level enhancements (or GLEs).
Presently, 73 GLE events are known.
The strongest known GLE event was detected on 23-Feb-1956.
Some events produce large amounts of HZE ions, although their contribution to the total radiation is small compared to the level of protons.
Miyake events
Solar particle events are thought to be responsible for Miyake events, observed sharp enhancements of the concentration of certain isotopes found in tree rings. These events, discovered by physicist Fusa Miyake, have enabled the dating of a number of past SPEs to specific years.
Hazards
Humans
High altitude commercial transpolar aircraft flights have measured increases in radiation during these events. In 2019, the International Civil Aviation Organization introduced the Space Weather Centres that publish space weather advisories pertinent to international air navigation, describing the effects of space weather on aviation and possible mitigation actions. Aircraft flights away from the polar regions are far less likely to see an impact from SPEs.
Significant proton radiation exposure can be experienced by astronauts who are outside of the protective shield of the Earth's magnetosphere, such as an astronaut in-transit to, or located on, the Moon. However, the effects can be minimized if the astronauts are in a low Earth orbit and remain confined to the most heavily shielded regions of their spacecraft. Proton radiation levels in low Earth orbit increase with orbital inclination. Therefore, the closer a spacecraft approaches the polar regions, the greater the exposure to energetic proton radiation will be.
Spacecraft
Energetic protons from SPEs can electrically charge spacecraft to levels that can damage electronic components. They can also cause electronic components to behave erratically. For example, solid state memory on spacecraft can be altered, which may cause data or software contamination and result in unexpected (phantom) spacecraft commands being executed. Energetic proton storms also destroy the efficiency of the solar panels that are designed to collect and convert sunlight to electricity. During years of exposure to energetic proton activity from the Sun, spacecraft can lose a substantial amount of electrical power that may require important instruments to be turned off.
When energetic protons strike the sensitive optical electronics in spacecraft (such as star trackers and other cameras) flashes occur in the images being captured. The effect can be so pronounced that during extreme events, it is not possible to obtain quality images of the Sun or stars. This can cause spacecraft to lose their orientation, which is critical if ground controllers are to maintain control.
Associated phenomena
Major SPEs can be associated with geomagnetic storms that can cause widespread disruption to electrical grids. However, proton events themselves are not responsible for producing anomalies in power grids, nor are they responsible for producing geomagnetic storms. Power grids are only sensitive to fluctuations in the Earth's magnetic field.
See also
Heliophysics
List of solar storms
Solar energetic particles
Space weather
Explanatory notes
References
External links
Solar Particle Events Affecting the Earth Environment 1976 - present
SWPC S-scale
SWPC alert descriptions
Carrington Super Flare, NASA Science News, May 6, 2008
Solar phenomena
Space hazards
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Matthew Rosseinsky. Matthew Jonathan Rosseinsky is a British academic who is Professor of Inorganic Chemistry at the University of Liverpool. He was awarded the Hughes Medal in 2011 "for his influential discoveries in the synthetic chemistry of solid state electronic materials and novel microporous structures."
He has been awarded the Harrison Memorial Prize (1991), Corday-Morgan Medal and Prize (2000) and Tilden Lectureship (2006) of the Royal Society of Chemistry (RSC). In 2009, he was awarded the inaugural De Gennes Prize by the RSC, a lifetime achievement award in materials chemistry, open internationally. In 2013, he became a Royal Society Research Professor.
In 2017, he was awarded the Davy Medal of the Royal Society for “his advances in the design and discovery of functional materials, integrating the development of new experimental and computational techniques.” He gave the Muetterties Lectures at UC Berkeley and the Lee Lectures at the University of Chicago in 2017. In 2019, he gave the Flack Memorial Lectures of the Swiss Crystallographic Society and was awarded the Frankland Lectureship by Imperial College London. In 2020, he was made an Honorary Fellow of the Chemical Research Society of India. In 2022, he gave the Davison Lectures at the Massachusetts Institute of Technology, and received the Basolo Award of the Chicago Section of the American Chemical Society.
He was a member of the Science Minister’s Advanced Materials Leadership Council from 2014-2016, and of the governing Council of the Engineering and Physical Sciences Research Council from 2015-2019.
In 2023, he received the Eni Energy Frontiers Award for the digital design and discovery of next-generation energy materials from the President of Italy.
References
Living people
20th-century British chemists
21st-century British chemists
Fellows of the Royal Society
Year of birth missing (living people)
Place of birth missing (living people)
Academics of the University of Liverpool
Alumni of the University of Oxford
Solid state chemists
Officers of the Order of the British Empire
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Neuroepistemology. Neuroepistemology is an empirical approach to epistemology—the study of knowledge in a general, philosophical sense—which is informed by modern neuroscience, especially the study of the structure and operation of the brain involving neural networks and neuronal epistemology. Philosopher Patricia Churchland has written about the topic and, in her book Brain-Wise, characterised the problem as "how meat knows". Georg Northoff, in his Philosophy of the Brain, wrote that it "focuses on direct linkage between the brain on one hand and epistemic abilities and inabilities on the other."
Assumptive framework
The postmodernist Menachem Mazabow wrote that it "is necessary... to state the set of assumptions that are seen as fundamental to any neuro-epistemological inquiry." These include:
The significance of revealing the suppositions which influence one’s behavior (the self-reflexive connection between meaning and behavior).
The larger socio-politico-historical contextual effects on one’s individual assumptions.
The power relations deeply rooted in the dominant discourses in a field and their overpowering effect on different modes of thought.
The unavoidably context-dependent and subjective nature of all concepts, compared to objective systems of validity.
The importance of examining embedded assumptions and of concentrating on the association between idea and context.
The affirmation that appropriate theorizing is a certainty of our nature as language observers and directing theorists in the direction of improving awareness of their fundamental responsibility.
The assertion that the concept of efficacy, instead of objective validity should be the fulcrum in the evaluation of theory.
Application
Brown has noted the "tacit bias" in any observation, which is rooted in "assumptions on the nature of mind" that shape the research, and for Hanlan and Brown, theory does not arise from data alone. Crick has stated that it is impossible to pursue a difficult programme of research in neuroscience without some preconceived ideas, seen as inevitable by Churchland. Stein, Brailowsky and Will have opined that such preconceptions about the central nervous system have tended to hamper research in certain areas.
References
Epistemology
Neurophilosophy
Philosophy of psychology
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Acta Geotechnica. Acta Geotechnica is a bimonthly peer-reviewed engineering journal published by Springer. The editor-in-chief is Wei Wu (University of Natural Resources and Life Sciences, Vienna). The other two journal editors Ronaldo Borja (Stanford, USA), and Jian Chu (Singapore).
Acta Geotechnica covers fundamental and applied research in geotechnical engineering, including mining, tunneling, and dam engineering, as well as geohazard, geoenvironmental, and petroleum engineering. Publishing formats include research papers, review articles, short notes, and letters to the editors. This journal is among the top journals in the field of Geotechnical engineering.
Abstracting and indexing
The journal was started in 2006 and was included in SCI in 2010. The Impact Factor for 2020 is 5.8, which is the 1st place among the 35 SCI journals in the category of "Engineering Geological". The journal is abstracted and indexed in:
Current Contents/Engineering, Computing and Technology
SCI
Scopus
Inspec
EBSCO databases
CSA Illumina
Academic OneFile
GeoRef
VINITI Database RAS
According to the Journal Citation Reports, the journal has a 2020 impact factor of 5.8.
References
External links
Springer Science+Business Media academic journals
Academic journals established in 2006
Bimonthly journals
Hybrid open access journals
English-language journals
Mining journals
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Acta Geotechnica Slovenica. Acta Geotechnica Slovenica is a biannual peer-reviewed scientific journal published by the University of Maribor, Faculty of Civil Engineering. The editor-in-chief is Ludvik Trauner (University of Maribor). The journal covers fundamental and applied research in the areas of geomechanics and geotechnical engineering. Topics covered include soil and rock mechanics, engineering geology, environmental geotechnics, geosynthetics, numerical and analytical methods, computer modelling, field and laboratory testing.
History
Acta Geotechnica Slovenica was established in 2004 by:
University of Maribor, Faculty of Civil Engineering
University of Ljubljana, Faculty of Civil and Geodetic Engineering and Faculty of Natural Sciences and Engineering
Slovenian Geotechnical Society
Society for Underground and Geotechnical Constructions
Abstracting and indexing
This journal is abstracted and indexed in:
Science Citation Index Expanded
International Construction database
GeoRef
According to the Journal Citation Reports, the journal has a 2012 impact factor of 0.10.
See also
List of academic journals published in Slovenia
References
External links
Engineering journals
University of Maribor
Biannual journals
Academic journals published in Slovenia
Academic journals established in 2004
Academic journals published by universities and colleges
Mining journals
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Nightingales (American TV series). Nightingales is an American medical drama television series that aired on NBC from January 21 to April 26, 1989. It was produced by Aaron Spelling Productions.
Premise
The series follows the stories of Christine Broderick, a supervisor of student nurses, portrayed by Suzanne Pleshette, and her five nursing students: Sam, Bridget, Yolanda, Becky, and Allyson. Other hospital personnel include Christine's love interest, Dr. Paul Petrillo; the head nurse, Lenore Ritt; and the chief of staff, Dr. Garrett Braden. Nurse Sam also has a daughter, Megan.
Cast
Suzanne Pleshette as Christine Broderick
Chelsea Field as Sam Sullivan
Kristy Swanson as Becky Granger
Susan Walters as Bridget Loring
Roxann Dawson as Yolanda Puente
Kim Johnston Ulrich as Allyson Yates
Taylor Fry as Megan Sullivan
Fran Bennett as Lenore Ritt
Barry Newman as Dr. Garrett Braden
Episodes
Production
The series was developed from a pilot television film, also titled Nightingales, that was directed by Mimi Leder and originally aired in June 1988. Field, Walters, Swanson, Bennett, and Jennifer Rhodes (as Effie Gardner) are the only members of the cast to appear in both the film and the series.
Reception
The series was described in the Chicago Tribune as portraying nursing students as women who "don't spend much time studying...[but] do hang around in their underwear a lot". Nightingales was criticized for "demeaning the nursing profession...by portraying five student nurses as lusty bimbos", and the American Nurses Association initiated a letter-writing campaign that prompted several of the show's sponsors to withdraw their advertising. The series was cancelled after 13 episodes. Aaron Spelling briefly revived the show's premise in syndication as the 1995 series University Hospital, with a completely different cast. This variant only lasted one season as well.
References
Sources
External links
1989 American television series debuts
1989 American television series endings
1980s American medical drama television series
American English-language television shows
NBC television dramas
Serial drama television series
Television series by Spelling Television
Television shows set in Los Angeles
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Richtmyer Memorial Award. The Richtmyer Memorial Award is an award for physics education, named for physicist Floyd K. Richtmyer and given annually by the American Association of Physics Teachers. Its recipients include over 15 Nobel Prize winners.
Establishment and award criteria
Floyd T. Richtmyer (1881–1939) was one of the first presidents of the American Association of Physics Teachers and his work helped shape the development of physics in the United States. The Richtmyer Award was established in 1941, and is typically given to educators who have made outstanding contributions as teachers in their fields. It is awarded to those who have not only produced important current research in physics, but to those who have, by means of communication to both students and other educators, imparted information and motivation to participants in the field. The effective use of a teaching method in order to pass on information, and to stimulate interest in physics, is seen as being worthy of recognition in its own right, in addition to the importance of the production of new research.
Recipients of the award deliver a Keynote Address, the annual Richtmyer Lecture, which is designed for communication with non-specialist audiences, during the AAPT Winter Meeting.
Recipients
Past recipients of the award include "a long list of giants in the field of physics" such as UC Berkeley Chancellor Robert J. Birgeneau (1989); Steven Chu of the Lawrence Berkeley National Laboratory (1990), who also is a UC Berkeley professor of physics and a physics Nobelist, and who has been the 12th United States Secretary of Energy since 2009; and physicists Charles Townes (1959), Emilio Segrè (1957), J. Robert Oppenheimer (1947), and Nobel prize winner Carl Wieman of the University of Colorado at Boulder in 1996.
Since its foundation in 1941, the following scientists from a wide number of institutions have received this award:
Source: American Association of Physics Teachers
1941 - Arthur H. Compton, University of Chicago
1942 - Gordon Ferrie Hull, Dartmouth College
1944 - Karl K. Darrow, Columbia University
1945 - I.I. Rabi, Columbia University
1946 - Paul E. Klopsteg, Northwestern University
1947 - J.R. Oppenheimer, University of California
1948 - Homer L. Dodge, Norwich University
1949 - Lee A. DuBridge, California Institute of Technology
1950 - John H. Van Vleck, Harvard University
1951 - John C. Slater, Massachusetts Institute of Technology
1952 - Enrico Fermi, University of Chicago
1953 - Edward M. Purcell, Harvard University
1954 - John A. Wheeler, Princeton University
1955 - Eugene P. Wigner, Princeton University
1956 - Walter H. Brattain, Bell Telephone Laboratories
1957 - Emilio Segre, University of California
1958 - Philip Morrison, Cornell University
1959 - Charles H. Townes, Columbia University
1960 - James A. Van Allen, State University of Iowa
1961 - William A. Fowler, California Institute of Technology
1962 - Thomas Gold, Cornell University
1963 - Wolfgang K.H. Panofsky, Stanford University
1964 - Fred Hoyle, Cambridge University
1965 - William M. Fairbank, Stanford University
1966 - Murray Gell-Mann, California Institute of Technology
1967 - Robert H. Dicke, Princeton University
1968 - Robert R. Wilson, National Accelerator Laboratory
1969 - S. Chandrasekhar, University of Chicago
1970 - Arthur L. Schawlow, Stanford University
1971 - Edwin Land, Polaroid Corporation
1972 - Robert B. Leighton, California Institute of Technology
1973 - Michael E. Fisher, Cornell University
1974 - Steven Weinberg, Harvard University
1975 - Riccardo Giacconi, Harvard University
1976 - Britton Chance, University of Pennsylvania School of Medicine
1977 - Michael Tinkham, Harvard University
1978 - Sidney Drell, Stanford Linear Accelerator Center
1979 - William A. Nierenberg, Scripps Institute of Oceanography
1980 - Edward C. Stone, California Institute of Technology
1981 - Hans Frauenfelder, University of Illinois
1982 - Karen McNally, Seismological Laboratory, California Institute of Technology and University of California, Santa Cruz
1983 - Edward A. Frieman, Science Applications Inc., La Jolla, California
1984 - David N. Schramm, University of Chicago
1985 - Gerry Neugebauer, California Institute of Technology
1986 - Leon M. Lederman, Fermi National Accelerator Laboratory
1987 - Clifford M. Will, Washington University in St. Louis
1988 - Peter A. Franken, University of Arizona
1989 - Robert J. Birgeneau, Massachusetts Institute of Technology
1990 - Steven Chu, Stanford University
1991 - Larry W. Esposito, University of Colorado Boulder
1992 - Kip S. Thorne, California Institute of Technology, Pasadena
1993 - Richard E. Smalley, Rice University
1994 - Sheldon Glashow, Harvard University
1995 - Joseph Henry Taylor, Princeton University
1996 - Carl E. Wieman, University of Colorado
1997 - H. Eugene Stanley, Boston University
1998 - Douglas D. Osheroff, Stanford University
1999 - Wayne H. Knox, Bell Laboratories
2000 - William D. Phillips, National Institute of Standards and Technology
2001 - Shirley Ann Jackson, Rensselaer Polytechnic Institute, Troy, NY
2002 - Jordan A. Goodman, University of Maryland, College Park, MD
2003 - Margaret Murnane, University of Colorado, Boulder, CO
2004 - Lene Vestergaard Hau, Harvard University, Cambridge, MA
2005 - Carlos Bustamante, University of California, Berkeley CA
2006 - Neil Ashby, University of Colorado, Boulder, CO
2007 - Alex Filippenko, University of California, Berkeley CA
2008/9 - Vera Rubin, Carnegie Institution of Washington
2010 - not Awarded
2011 - Kathryn Moler, Geballe Laboratory for Advanced Materials and Physics, Stanford University, CA
2012 - Brian Greene, Columbia University, New York, NY
2014 - Sir Michael Berry, University of Bristol
2016 - Derek Muller, Veritasium YouTube Channel, Catalyst
2017 - Jay M. Pasachoff, Williams College, Williamstown, MA
2018 - Mark Beck, Whitman College, Walla Walla, Washington
Significance
It is the emphasis on mentoring younger teachers that has made the Richtmyer Award distinct from other teaching awards that centre mainly upon the education of students. The Richtmyer Award is the forerunner of modern awards such as the Young Faculty Award (YFA) program established by DARPA, the aim of which is to identify and engage rising research stars in junior faculty positions at U.S. academic institutions.
See also
List of physics awards
External links
Official website
References
Physics awards
Teacher awards
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Journal of Experimental Botany. The Journal of Experimental Botany (JXB) is a peer-reviewed scientific journal published by Oxford University Press on behalf of the Society for Experimental Biology. It covers research on plant biology, focusing on molecular physiology, molecular genetics, and environmental physiology. Some of its content is available under an open access licence. The editor-in-chief is John Lunn (Max Planck Institute of Molecular Plant Physiology).
Research is published in five key areas: growth and development, cell biology, metabolism, plant-environment interactions, and crop molecular genetics.
References
External links
Submission website
Society for Experimental Biology website
Journal of Experimental Botany at SCImago Journal Rank
Journal of Experimental Botany at HathiTrust Digital Library
Journal of Experimental Botany at Botanical Scientific Journals
Botany journals
Hybrid open access journals
Oxford University Press academic journals
English-language journals
Academic journals established in 1950
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Levon Pogosian. Levon Pogosian is a cosmologist and a Professor of Physics at Simon Fraser University.
Pogosian works on a range topics that include cosmic microwave background, large scale structure, dark energy and modified gravity, observational probes of physics beyond Standard Model, cosmic (super)strings and other topological defects, and cosmological magnetic fields. Pogosian and his collaborator Karsten Jedamzik from the University of Montpellier shared the 2021 Buchalter Cosmology Prize (First Prize) for their research on relieving the Hubble tension with primordial magnetic fields.
Pogosian has an h-index of 53 according to Google Scholar.
References
External links
Levon Pogosian's article in The Conversation
2021 Buchalter Prize
Levon Pogosian's articles on arXiv
Levon Pogosian's articles on NASA ADS
Levon Pogosian's articles on INSPIRE HEP
Year of birth missing (living people)
Living people
West Virginia University alumni
Case Western Reserve University alumni
Academic staff of Simon Fraser University
Canadian physicists
21st-century Canadian astronomers
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Xi Pavonis. ξ Pavonis, Latinised as Xi Pavonis, is a triple star system in the southern constellation of Pavo. It is visible to the naked eye as a faint star with a combined apparent visual magnitude of 4.35 The system is located approximately 440 light-years from the Sun based on parallax, and it is drifting further away with a radial velocity of +12 km/s.
This system forms the double star GLE 2, whose companion's magnitude is 8.6 with a angular separation, which was discovered by Australian amateur astronomer Walter Gale in 1894. The primary component is itself a single-lined spectroscopic binary with an orbital period of and an eccentricity of 0.26. The visible member of this inner pair is an aging giant star with a stellar classification of K4III.
References
K-type giants
Spectroscopic binaries
Triple stars
Pavo (constellation)
Pavonis, Xi
Durchmusterung objects
168339
090098
6855
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Kappa Pavonis. Kappa Pavonis (κ Pav) is a variable star in the constellation Pavo. It is the brightest W Virginis variable in the sky.
Discovery
In 1901, κ Pavonis was reported to be a variable star with a magnitude range of 3.8 to 5.2 with a period of 9.0908 days. Further observations revealed radial velocity variations in time with the brightness variations, but this was assumed to indicate a spectroscopic binary system. The brightness variations were then interpreted as eclipses.
Less than 10 years later, was κ Pav was listed as a likely Cepheid variable. In 1937 it was used as part of the effort to calibrate the Cepheid distance scale. Only years later were the separate period luminosity relationships for population I and II Cepheid variables identified, and κ Pav was assigned to the type II group.
Variability
κ Pavonis ranges between apparent magnitudes 3.91 and 4.78, and spectral types F5 to G5, over a period of 9.1 days. It is a W Virginis variable, a type II Cepheid thought to be evolving along a blue loop from the thermal pulsing asymptotic giant branch.
κ Pav shows sudden small changes in the period of its otherwise highly regular pulsations. The period has changed at times by as much as 16 minutes from its average of around 9 days and 2 hours. The star also is considered peculiar compared to other W Virginis stars such as W Virginis itself. A sub-group of W Virginis stars in the Large Magellanic Cloud have been discovered to be hotter and more luminous than expected and given a pW (peculiar W Virginis) classification. It is proposed that κ Pav should also be given a pW classification. The peculiarities in the LMC stars may be due to binary interactions, although κ Pav is not known to be a binary star.
Properties
κ Pavonis is a large star several hundred times more luminous than the sun. Its spectral type varies as it pulsates, between F5 and G5 as the temperature changes, and the luminosity class changes from a bright giant to a supergiant. The luminosity class is relatively high for a star of this luminosity, due to the low surface gravity caused by a low mass pulsating star. The pulsations cause the star's radius to change by about above and below the mean size. The angular diameter of the disc has been directly observed to change during the pulsations.
References
Pavo (constellation)
F-type supergiants
Pavonis, Kappa
W Virginis variables
F-type bright giants
093015
7107
174694
Durchmusterung objects
G-type bright giants
G-type supergiants
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Nu Pavonis. Nu Pavonis is a possible triple star system in the southern constellation of Pavo. It is visible to the naked eye as a faint star that varies in apparent visual magnitude from 4.60 to 4.64 over a period of 0.85584 days. The system lies approximately 440 light years from the Sun based on parallax, and is drifting further away with a radial velocity of +17 km/s. It is a possible member of the Wolf 630 group of co-moving stars.
This is a single-lined spectroscopic binary system with an orbital period of just 1.71 days in a circular orbit. The unresolved components are close enough that their tidal interaction is significant. Nu Pavonis was discovered to be a variable star when the Hipparcos data was analyzed. The visible component is a slowly pulsating B-type star with a stellar classification of B7III. This implies it is an evolved giant star, but it is actually more likely to be on the main sequence. An X-ray emission has been detected from the pair.
The third component is a visible companion, probably a pre-main-sequence star, at magnitude 13.7 and separation . This star is estimated at 0.15 solar masses and an effective temperature of 3,192 K. It too is an X-ray source.
References
B-type giants
Slowly pulsating B-type stars
Spectroscopic binaries
Pavo (constellation)
Pavonis, Nu
Durchmusterung objects
169978
090797
6916
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Phi1 Pavonis. {{DISPLAYTITLE:Phi1 Pavonis}}
Phi1 Pavonis, latinized from φ1 Pavonis, is a single star in the southern constellation of Pavo. It has a yellow-white hue and is faintly visible to the naked eye with an apparent visual magnitude of 4.75. The star is located at a distance of approximately away based on parallax. It is drifting closer to the Sun with a radial velocity of −20 km/s.
This is an ordinary F-type main-sequence star with a stellar classification of F0V. It has 1.5 times the mass of the Sun and 1.8 times the Sun's radius. This is a young star, perhaps 30 million years old, and has a high rate of spin with a projected rotational velocity of 150 km/s. It is radiating 8.2 times the luminosity of the Sun from its photosphere at an effective temperature of 7,209 K.
Phi1 Pavonis is a candidate debris disk star, although Gray et al. (2006) reported a non-detection of an infrared excess. Nilsson et al. (2010) report a marginal detection, orbiting from the host star with a temperature of and an estimated times the mass of the Moon.
References
F-type main-sequence stars
Pavo (constellation)
Pavonis, Phi1
Durchmusterung objects
195627
101612
7848
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Rho Pavonis. Rho Pavonis, Latinized from ρ Pavonis, is a single, variable star in the southern constellation of Pavo. It is yellow-white in hue and faintly visible to the naked eye with an apparent visual magnitude that fluctuates around 4.86. The star is located at a distance of approximately 190 light years from the Sun based on parallax, and is drifting further away with a radial velocity of +8 km/s. It is a candidate outlying member of the Tucana Association of co-moving stars.
This is a metallic-line star with a stellar classification of Fm δ Del, where the suffix notation indicating it is a δ Delphini star. It is a Delta Scuti variable, varying in brightness by 0.03 magnitudes. The dominant pulsation period is , but the effects of other pulsation periods are apparent in the light curve. The star has 4.3 times the girth of the Sun and is spinning with a projected rotational velocity of 45 km/s. It is radiating 34 times the luminosity of the Sun from its photosphere at an effective temperature of 6,704 K.
References
F-type giants
Delta Scuti variables
Am stars
Pavo (constellation)
Pavonis, Rho
Durchmusterung objects
195961
101773
7859
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NU Pavonis. NU Pavonis (N-U, not "nu") is a variable star in the southern constellation of Pavo. With a nominal apparent visual magnitude of 4.95, it is a faint star but visible to the naked eye. The distance to NU Pav, as determined from its annual parallax shift of as seen from Earth's orbit, is around 460 light years. It is moving closer with a heliocentric radial velocity of −10 km/s.
This is an aging red giant with a stellar classification of M6 III, currently on the asymptotic giant branch. Peter M. Corben listed HR 7625 as a possible variable star in 1971. It was given its variable star designation, NU Pavonis, in 1973. It is a semiregular variable star of sub-type SRb that ranges in magnitude from 4.91 down to 5.26 with a period of 60 days. The star has expanded to 204 times the Sun's radius and is radiating 7,412 times the Sun's luminosity from its enlarged photosphere at an effective temperature of 3,516 K. Far-ultraviolet emission has been detected from these coordinates, which may be coming from a companion star.
References
M-type giants
Semiregular variable stars
Asymptotic-giant-branch stars
Pavo (constellation)
Durchmusterung objects
189124
098608
7625
Pavonis, NU
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Ray Klinginsmith. Ray Klinginsmith is a social activist fighting for the rights of the disabled, and is the former World President of Rotary International.
Notes
Rotary International leaders
Living people
American disability rights activists
University of Cape Coast alumni
Year of birth missing (living people)
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Barium cyanide. Barium cyanide is a chemical compound with the formula Ba(CN)2. It is synthesized by the reaction of hydrogen cyanide and barium hydroxide in water or petroleum ether. It is a white crystalline salt.
Uses
Barium cyanide is used in electroplating and other metallurgical processes.
Reactions
Barium cyanide reacts with water and carbon dioxide in air slowly, producing highly toxic hydrogen cyanide gas.
When barium cyanide is heated to 300°C with steam present, the nitrogen evolves to ammonia, leaving barium formate.
Ba(CN)2 + 4 H2O = Ba(HCOO)2 + 2 NH3
Aqueous solutions of barium cyanide dissolve insoluble cyanides of some of the heavy metals forming crystalline double salts. For example, BaHg(CN)4.3H2O in needles, 2Ba(CN)2.3Hg(CN)2.23H2O in transparent octahedra, and Ba(CN)2.Hg(CN)2.HgI2.6H2O.
References
Barium compounds
Cyanides
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David Ferguson (geologist). David Ferguson (c. 1857 – 1936) was a Scottish explorer, mining engineer and prospector.
An alumnus of the University of Glasgow, he is most known for explorations in Antarctica on private geological survey expeditions for the Scottish company, Christian Salvesen between 1911 and 1915. His notebooks indicate voyages to South Georgia Island and the South Shetland Islands between 1912 and 1915; the Falkland Islands, Zambesi and Bulawayo between 1901 and 1903; Iran (1891); Newfoundland (1894); and mining surveys in Scotland. He is credited with naming several geographic locations in the south Atlantic region and Antarctica, and Ferguson Peak on South Georgia was named in his honour.
References
University of Glasgow Archive Services: Found - Lost Antarctic explorer
Scottish explorers
Scottish mining engineers
British prospectors
Alumni of the University of Glasgow
1850s births
1936 deaths
British explorers of Antarctica
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Stephen E. Harris. Stephen Ernest Harris (born November 29, 1936) is an American physicist known for his contributions to electromagnetically induced transparency (EIT), modulation of single photons, and x-ray emission.
In a diverse career, he has collaborated with others to produce results in many areas, including the 1999 paper titled “Light speed reduction to 17 metres per second in an ultracold gas,” in which Lene Hau and Harris, Cyrus Behroozi and Zachary Dutton describe how they used EIT to slow optical pulses to the speed of a bicycle. He has also contributed to developments in the use of the laser, generating paired photons with single driving lasers He has also shown the development of such pairs of photons using waveforms.
His more recent work has sought to address restraints imposed on the types of waveforms that can be produced by the single-cycle barrier Harris and colleagues succeeded in this endeavour in 2005 during a series of experiments aimed at obtaining full control of waveforms, noting "we were able to vary the shape of the pulse to generate different prescribed waveforms." It is hoped that these results will lead to coherent control of chemical reactions, as a probe for ever-shorter physical processes, and for highly efficient generation of far infra-red and vacuum ultra-violet radiation.
Harris was elected as a member into the National Academy of Engineering in 1977 for contributions in the field of coherent and non-linear optics.
Education
1959 B.S., Electrical Engineering, Rensselaer Polytechnic Institute
1961 M.S., Electrical Engineering, Stanford University
1963 Ph.D., Electrical Engineering, Stanford University
Awards
1973 Curtis W. McGraw Research Award (American Society for Engineering Education)
1978 David Sarnoff Award (The Institute of Electrical and Electronics Engineers)
1984 Davies Medal for Engineering Achievement (Rensselaer Polytechnic Institute)
1985 Charles Hard Townes Award (Optical Society of America)
1991 Einstein Prize for Laser Science (International Conference on Lasers and Applications)
1992 Optical Society of America (Stanford Chapter) Teaching Award
1994 Quantum Electronics Award (The Institute of Electrical and Electronics Engineers)
1999 Frederic Ives Medal (highest award of the Optical Society of America)
2002 Arthur L. Schawlow Prize in Laser Science (American Physical Society)
2007 Harvey Prize (Awarded by the Technion-Israel Institute of Technology)
2020 Willis E. Lamb Award for Laser Science and Quantum Optics
Honours
1968 Fellow of the Optical Society of America
1972 Fellow of the Institute of Electrical and Electronics Engineers
1975 Fellow of American Physical Society
1976 Guggenheim Fellowship
1977 Elected to the National Academy of Engineering
1981 Elected to the National Academy of Sciences
1988 Kenneth and Barbara Oshman Professor of Engineering Endowed Chair (Stanford University)
1994 Fellow of the American Association for the Advancement of Science
1995 Elected to Fellow of the American Academy of Arts and Sciences
2005 Stephen E. Harris Endowed Professorship in Quantum Optics (Texas A&M University)
2013 Honorary Member of the Optical Society of America
References
External links
Harris page at Stanford
1936 births
Living people
21st-century American physicists
American optical physicists
Fellows of Optica (society)
Members of the United States National Academy of Engineering
Members of the United States National Academy of Sciences
Fellows of the American Physical Society
Stanford University School of Engineering alumni
Rensselaer Polytechnic Institute alumni
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Journal of Colloid and Interface Science. The Journal of Colloid and Interface Science is a peer-reviewed scientific journal published by Elsevier. It covers research related to colloid and interface science with a particular focus on colloidal materials and nanomaterials; surfactants and soft matter; adsorption, catalysis and electrochemistry; interfacial processes, capillarity and wetting; biomaterials and nanomedicine; and novel phenomena and techniques. The editor-in-chief is Martin Malmsten (Uppsala University). The journal was established in 1946 as Journal of Colloid Science. It obtained its current name in 1966.
Abstracting and indexing
The journal is abstracted and indexed in:
According to the Journal Citation Reports, the journal has a 2021 Impact Factor of 9.965, ranking it 32nd out of 162 journals in the category "Chemistry, Physical".
See also
Colloids and Surfaces A: Physicochemical and Engineering Aspects
Colloids and Surfaces B: Biointerfaces
Advances in Colloid and Interface Science
Current Opinion in Colloid & Interface Science
Progress in Polymer Science
References
External links
Chemistry journals
Materials science journals
English-language journals
Elsevier academic journals
Biweekly journals
Academic journals established in 1946
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Peter Kalmus (physicist). Peter Ignaz Paul Kalmus (born 25 January 1933), is a British particle physicist, and emeritus professor of physics at Queen Mary, University of London.
Early life
Kalmus was born in Prague on 25 January 1933, and moved to Britain with his parents and younger brother George Kalmus in 1939. His sister Elsa was born in 1945. The family became British citizens in 1946.
Education
Kalmus went to school first in London and then in Harpenden, Hertfordshire. From 1943 till 1951 he was at St Albans County Grammar School (later renamed Verulam School). He received his BSc (1954) and PhD (1957) at University College London where he remained for a further three years as a Research Associate. He is now an Honorary Fellow of University College London.
W and Z particles
Among a number of notable achievements in his career, the Queen Mary, University of London group led by Peter Kalmus in conjunction with the Rutherford Appleton Laboratory group led by Alan Astbury and the Birmingham University group led by John Dowell joined Carlo Rubbia at CERN in an international collaboration known as UA1.
They built a large universal detector, aimed at investigating phenomena at the world's highest energy collisions, which were obtained from 1981 onwards, when the CERN Super Proton Synchrotron was converted into a proton-antiproton collider, as suggested by Rubbia, using the stochastic beam cooling technique devised by Simon van der Meer. The UK groups had joint responsibility for designing, constructing and operating a large hadron calorimeter and also a trigger processor.
The most celebrated work with the UA1 detector was the discovery in 1983 of the W and Z particles. This discovery provided the experimental evidence for the unification of two of nature's seemingly very different fundamental forces: electromagnetism (which underlies electricity generation) and the weak force (which allows the Sun to shine). The unification of these two forces is part of a quest to see if all forces in the universe can be united into a "theory of everything" (Unified Field Theory). Electroweak unification demonstrated that what had previously been considered nature's four fundamental forces (electromagnetism, weak interaction, strong interaction and gravity) were now reduced to three.
For this work Carlo Rubbia and Simon van der Meer of CERN received the 1984 Nobel Prize for Physics. Alan Astbury received the 1984 Rutherford Medal and Prize, and Peter Kalmus and John Dowell were jointly awarded the 1988 Rutherford Medal and Prize from the Institute of Physics for their outstanding roles in the discovery of the W and Z particles.
Selected research
1957 to 1960 - Kalmus conducted research at UCL mainly on the development of new instruments, helping to build a small particle accelerator, a 29 MeV electron microtron, its beam extraction system, and its external focusing using quadrupole magnets (probably the first use of these in the UK), and later devising an accurate method of measuring relativistic electron beam energies using Cerenkov radiation, then a novel technique.
1960 to 1964 – Kalmus worked for Argonne National Laboratory, USA, initially in the Particle Accelerator Division, directed by Albert Crewe. He was responsible for designing beam-transport equipment for the coming 12.5 Gev Zero Gradient Synchrotron. He transferred to the High Energy Physics Division and in 1961 went to CERN with an Argonne group headed by Art Roberts. It was at CERN that he first met John Dowell, and they designed and set up a particle beamline at the new 25 GeV Proton Synchrotron. The Argonne group used this beamline to conduct a series of measurements of hyperon polarisation using a large optical spark chamber inside a magnetic field: a pioneering technique which much later became the basis of many other electronic imaging chambers. On returning to Argonne in 1962 he collaborated with a Chicago group in an experiment on boson production, work which was finished during future visits to the USA as a visiting scientist at the University of Chicago.
1964 onwards – Kalmus was appointed Lecturer at Queen Mary College, University of London. He began a research collaboration with Alan Astbury of Rutherford Laboratory, which was to continue for about 20 years, when Alan Astbury moved to Canada. The Queen Mary and Rutherford Laboratory collaboration carried out a series of experiments at the new Nimrod accelerator at Rutherford Laboratory, mostly in strong interaction physics: nucleon isobar production in proton-proton collisions and elastic proton-proton scattering at wide angles, this time using spark chambers with sonic readout. Results from this accelerator helped to lay the experimental foundations of the quark model.
In 1970 this collaboration transferred their activities to CERN, to embark on a series of experiments on low energy antiproton-proton interactions. In this they were joined by physicists from Daresbury Laboratory and the University of Liverpool. Kalmus designed the (then) most intense low energy antiproton beam in the world. The experiments on differential cross sections and polarisation for the elastic and two-body meson channels culminated in the discovery of three new mesons and a determination of their quantum numbers. The period 1974 to 1978 was spent carrying out the last set of experiments at Nimrod. Kalmus designed a new low momentum beamline, this time for kaons, for a series of experiments with a polarised deuteron target. Several key measurements were made on kaon-nucleon elastic and charge exchange polarisation.
In late 1977 the Queen Mary group led by Peter Kalmus, along with the Rutherford Appleton Laboratory group under Alan Astbury and the Birmingham University group led by John Dowell joined Carlo Rubbia in the international collaboration known as UA1 at CERN. The UK groups involved had joint responsibility for designing, building and operating a large hadron calorimeter and also a trigger processor as part of the UA1 collaboration. The calorimeter, which measured the energies of strongly-interacting particles emerging from collisions, consisted of 7,000 sheets of plastic scintillator with a total mass of 30 tonnes placed in slots in the return yoke of a large electromagnet. Testing of the scintillator sheets was carried out at Queen Mary using cosmic rays. The scintillator light was transferred via fluorescent wavelength-shifter bars and light guides to 2000 photomultipliers outside the magnet. The number of proton-antiproton collisions exceeded the ability to record these by a factor of at least 1000. This necessitated the design of a trigger processor, a purpose-built electronic device which had to make decisions within 2 microseconds on which 1 in 1000 collisions was likely to be worth recording on magnetic tape for subsequent analysis, and which 999 could be discarded irretrievably. Some years later when the collision rate had increased, a new trigger processor was built.
The most celebrated work with the UA1 detector led to the discovery in 1983 of the W and Z particles. This work resulted in Carlo Rubbia and Simon van der Meer of CERN receiving the 1984 Nobel Prize for Physics. In 1988, Peter Kalmus and John Dowell were jointly awarded the Rutherford Medal and Prize from the Institute of Physics for their outstanding roles in the discovery of the W and Z particles (Alan Astbury had already received this medal in 1984).
UA1 was perhaps the most productive collaboration in the history of particle physics up to that date. It yielded results in quark and lepton physics, tests of quantum chromodynamics, properties of W and Z particles and other topics, which have been published in over 60 papers and presented at numerous conferences. The concept of a universal detector, measuring as much as possible of the outgoing particles from a collider, and covering nearly the whole of the solid angle, has been used ever since at colliding beam machines. This work finished in 1989.
At the end of 1989 the Queen Mary group joined another large collaboration called H1. The H1 collaboration had embarked on building a huge detector for the world's first proton-electron collider, HERA, which was being constructed at the DESY laboratory in Hamburg. The Queen Mary group was responsible for designing and constructing a time-of-flight hodoscope for H1, a piece of apparatus that proved crucial to the operation of the experiment as it reduced the unwanted background by a factor of a hundred. Many of the initiatives came from Kalmus's colleagues Graham Thompson and Eric Eisenhandler, particularly after Kalmus became Head of Department at Queen Mary, University of London in 1992 and had less time for research.
Publications
Kalmus is the author or co-author of about 230 scientific papers. He has always emphasised that modern experimental particle physics research is a group activity, and that past and present colleagues and research students have contributed strongly to the strength of the group.
Academia and education
In parallel with his research activities, Kalmus was a dedicated university teacher. He has taught numerous physics courses, ranging from pre-university A-level to international postgraduate school standard. His initial teaching was in the evenings at Northern Polytechnic and at Chelsea Polytechnic during the period 1955 to 1960. He has taught at all levels at Queen Mary College (Now Queen Mary, University of London), since 1964. Kalmus became Reader at Queen Mary in 1966 and Professor in 1978.
In 1992 Kalmus was appointed Head of Department at Queen Mary. This severely curtailed his personal involvement in the H1 research programme, which however continued to flourish with the strong participation of his colleagues.
Kalmus was given the title Emeritus Professor in 1998 after reaching nominal retirement age. However he continued to work normal hours in the department. He decided not to continue his participation in collaborative research involving enormous teams, and instead to devote more time to other physics interests, such as the Institute of Physics, and in particular to the public awareness and understanding of science.
Peter Kalmus continues to be active as Emeritus Professor of Physics at Queen Mary, University of London.
Public understanding of science
Kalmus has always been interested in furthering the public awareness and understanding of science. He started giving outreach lectures in the late 1950s, initially on nuclear power (then a novel source of electricity) to Women's Institutes. Kalmus was a pioneer in this, because at this time the popularisation of science was regarded with suspicion by some senior members of the science establishment. However, Kalmus always felt that scientists had a duty to explain what they were doing, and persisted throughout his career. Following an influential report by the Royal Society and particularly after the new UK Research Councils came into existence in 1994, such outreach activities became not only respectable but almost mandatory.
Kalmus is known in physics for his outreach work and for his popular lectures to schools and general audiences. These have also been delivered at meetings of the British Association for the Advancement of Science (now called the British Science Association), at the Royal Institution of Great Britain, the Institute of Physics, the Association for Science Education, the Edinburgh Science Festival, the Bournemouth Arts Festival, to science and astronomy clubs, and abroad in several continents. He has made a number of short radio broadcasts on scientific topics, and appeared occasionally on TV.
During the 1998–99 academic year he gave the Institute of Physics Schools Lecture 43 times in various venues in England, Scotland, Wales and the Channel Islands to a total audience of about 9,800 people, mostly in the 15 - 19 age group. At the invitation of the South African Institute of Physics this lecture-demonstration was repeated at 15 universities in South Africa during a 3-week period in early 2000, to a total audience of 3,500 consisting of university students and staff, senior school pupils, and members of the general public.
He subsequently gave this talk to other audiences in Dublin, Belfast and several venues in Britain. Different lectures on aspects of particle physics were given on behalf of the Royal Institution on about 10 occasions at Futuroscope in Poitiers, France, to more than 3,800 UK sixth formers who were there on study-visits.
In January 2001, Kalmus gave the named "Cockcroft and Walton Lectures" in India, as part of an exchange programme between the Institute of Physics and the Indian Physics Association. Nine lectures were given in four different cities, some at professional and others at popular level. He also visited and had discussions with staff at many Indian institutions, and represented the British Association at the Indian Science Congress in Delhi. He visited India again in 2004 giving 15 lectures on behalf of the British Council. He continued to give talks in the UK and abroad. By the summer of 2010 he had given about 200 talks to a total audience of 30,000 people since his retirement.
He has twice presented at the Royal Society soirees: in 1984 on "The discovery of the W and Z particles" and in 1994 on "The structure of the proton".
Kalmus was also an Associate Editor of Science Spectrum magazine.
Professional and science organisations
Kalmus has served on and contributed to a considerable number of professional and science organisations throughout his career. These have included CERN, the Science and Engineering Research Council, the Particle Physics and Astronomy Research Council, the British Association for the Advancement of Science, the Royal Institution, the American Physical Society, the European Physical Society, and the International Union of Pure and Applied Physics. Positions held have included:
CERN:
Chair of Sub-Committee and Scientific Advisor to the UK CERN delegation, 1978–1981.
Science and Engineering Research Council:
Member, Nuclear Physics Board, 1979–1982, 1989–1993.
Member, Astronomy and Planetary Science Board, 1990–1993.
American Physics Society:
Member, 1963.
Fellow, 1995.
European Physical Society:
Member, 1970.
Member, High Energy Particle Physics Board, 1994–1998.
British Association for the Advancement of Science:
Member, 1986.
President, Physics Section, 1990–1991.
Honorary Fellow, 2002.
International Union of Pure and Applied Physics:
Member Commission on Particles and Fields (C11), 1993–2002.
Honorary Secretary C11, 1996–1999.
Chair C11, 1999–2002.
Vice President IUPAP, 1999–2002.
Particle Physics and Astronomy Research Council:
Member, Education and Training Committee, 1994–1998.
Member, Public Understanding of Science Panel, 1994–1998.
Royal Institution:
MRI, 1989.
Member of Council,1996–1999.
Vice President, 1997–1999.
Chair, Davy Faraday Laboratory Research Committee, 1998–1999.
Kalmus has been particularly active in serving the Institute of Physics, having served as Council Member, Chair of several groups and committees, and as Vice President with special responsibility for education and public affairs. Through 2005–2009, Kalmus served as Chair of the London and South East Branch of the Institute of Physics. This period culminated in the award of the Institute of Physics Branches Prize in 2010.
Institute of Physics:
Fellow of the Institute of Physics, 1967
Chair, High Energy Physics Group, 1989–1993.
Council Member, 1993–2000.
Vice President, 1996–2000. Special responsibility for education and public affairs.
Chair, London and South East Branch, 2005–2009.
Honorary Fellow, 2010.
Kalmus continued to have involvement with the Institute of Physics after retirement from Queen Mary, serving on its Benevolent Fund Committee, on a panel to examine its journal publishing policy, and as its representative on an international steering group for the World Year of Physics 2005, the centenary of Einstein's "Miracle Year".
Honours and awards
1988 - Rutherford Medal and Prize from the Institute of Physics for his outstanding work in the discovery of the W and Z particles.
2001 - Honorary Fellow of the University College, London.
2001 - OBE for services to physics.
2002 - Kelvin Medal and Prize from the Institute of Physics for his outstanding contributions to the public understanding of physics.
2002 - Honorary Fellow of the British Science Association.
2003 - Honorary Fellow of Queen Mary, University of London.
2005 - Outreach Prize of the High Energy Physics Group of the European Physical Society.
2010 - Branches Prize by the Institute of Physics.
2010 - Honorary Fellow of the Institute of Physics, for his research, his teaching, his public engagement and his work for the Institute. He joined only 38 other recipients including 7 Nobel Laureates.
Personal life
Kalmus' father, Hans Kalmus, was a well-known biologist who worked at University College, London.
His brother, George Kalmus, is another noted British particle physicist. A press release from the Particle Physics and Astronomy Research Council (PPARC) in 2002 commented that "A particle physicist in the family is a rare occurrence. That there should be two and both be leaders of the field is even more unusual, yet Professors Peter and George Kalmus have achieved this."
Peter Kalmus married Felicity "Trixie" Barker in 1957, she died in 2018.
He has one son and one daughter, and one grandchild. He currently resides in London.
References
External links
Scientific publications of P.I.P. Kalmus on INSPIRE-HEP
1933 births
Living people
Particle physicists
Experimental physicists
Alumni of University College London
Academics of Queen Mary University of London
British physicists
Fellows of the American Physical Society
Fellows of the Institute of Physics
Officers of the Order of the British Empire
People associated with CERN
Jewish British physicists
People associated with IUPAP
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55 Pegasi. 55 Pegasi is a single star in the northern constellation of Pegasus. It is visible to the naked eye as a faint, reddish-hued point of light with a baseline apparent visual magnitude of 4.51. The star is located approximately 302 light years away from the Sun based on parallax, but it is moving closer with a radial velocity of −5 km/s.
This is an aging red giant star on the asymptotic giant branch with a stellar classification of M1IIIab, having exhausted the supply of hydrogen at its core then expanded to 46 times the Sun's radius. It is a suspected variable, with an observed magnitude that ranges from 4.50 down to 4.56. The star is around two billion years old with 1.6 times the mass of the Sun. It is radiating 483 times the luminosity of the Sun from its swollen photosphere at an effective temperature of 3,994 K.
References
M-type giants
Asymptotic-giant-branch stars
Suspected variables
Pegasus (constellation)
BD+08 4997
Pegasi, 55
218329
114144
8795
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Reverse genetics. Reverse genetics is a method in molecular genetics that is used to help understand the function(s) of a gene by analysing the phenotypic effects caused by genetically engineering specific nucleic acid sequences within the gene. The process proceeds in the opposite direction to forward genetic screens of classical genetics. While forward genetics seeks to find the genetic basis of a phenotype or trait, reverse genetics seeks to find what phenotypes are controlled by particular genetic sequences.
Automated DNA sequencing generates large volumes of genomic sequence data relatively rapidly. Many genetic sequences are discovered in advance of other, less easily obtained, biological information. Reverse genetics attempts to connect a given genetic sequence with specific effects on the organism. Reverse genetics systems can also allow the recovery and generation of infectious or defective viruses with desired mutations. This allows the ability to study the virus in vitro and in vivo.
Techniques used
In order to learn the influence a sequence has on phenotype, or to discover its biological function, researchers can engineer a change or disrupt the DNA. After this change has been made a researcher can look for the effect of such alterations in the whole organism. There are several different methods of reverse genetics:
Directed deletions and point mutations
Site-directed mutagenesis is a sophisticated technique that can either change regulatory regions in the promoter of a gene or make subtle codon changes in the open reading frame to identify important amino residues for protein function.
Alternatively, the technique can be used to create null alleles so that the gene is not functional. For example, deletion of a gene by gene targeting (gene knockout) can be done in some organisms, such as yeast, mice and moss. Unique among plants, in Physcomitrella patens, gene knockout via homologous recombination to create knockout moss (see figure) is nearly as efficient as in yeast. In the case of the yeast model system directed deletions have been created in every non-essential gene in the yeast genome. In the case of the plant model system huge mutant libraries have been created based on gene disruption constructs. In gene knock-in, the endogenous exon is replaced by an altered sequence of interest.
In some cases conditional alleles can be used so that the gene has normal function until the conditional allele is activated. This might entail 'knocking in' recombinase sites (such as lox or frt sites) that will cause a deletion at the gene of interest when a specific recombinase (such as CRE, FLP) is induced. Cre or Flp recombinases can be induced with chemical treatments, heat shock treatments or be restricted to a specific subset of tissues.
Another technique that can be used is TILLING. This is a method that combines a standard and efficient technique of mutagenesis with a chemical mutagen such as ethyl methanesulfonate (EMS) with a sensitive DNA-screening technique that identifies point mutations in a target gene.
In the field of virology, reverse-genetics techniques can be used to recover full-length infectious viruses with desired mutations or insertions in the viral genomes or in specific virus genes. Technologies that allow these manipulations include circular polymerase extension reaction (CPER) which was first used to generate infectious cDNA for Kunjin virus a close relative of West Nile virus. CPER has also been successfully utilised to generate a range of positive-sense RNA viruses such as SARS-CoV-2, the causative agent of COVID-19.
Gene silencing
The discovery of gene silencing using double stranded RNA, also known as RNA interference (RNAi), and the development of gene knockdown using Morpholino oligos, have made disrupting gene expression an accessible technique for many more investigators. This method is often referred to as a gene knockdown since the effects of these reagents are generally temporary, in contrast to gene knockouts which are permanent.
RNAi creates a specific knockout effect without actually mutating the DNA of interest. In C. elegans, RNAi has been used to systematically interfere with the expression of most genes in the genome. RNAi acts by directing cellular systems to degrade target messenger RNA (mRNA).
RNAi interference, specifically gene silencing, has become a useful tool to silence the expression of genes and identify and analyze their loss-of-function phenotype. When mutations occur in alleles, the function which it represents and encodes also is mutated and lost; this is generally called a loss-of-function mutation. The ability to analyze the loss-of-function phenotype allows analysis of gene function when there is no access to mutant alleles.
While RNA interference relies on cellular components for efficacy (e.g. the Dicer proteins, the RISC complex) a simple alternative for gene knockdown is Morpholino antisense oligos. Morpholinos bind and block access to the target mRNA without requiring the activity of cellular proteins and without necessarily accelerating mRNA degradation. Morpholinos are effective in systems ranging in complexity from cell-free translation in a test tube to in vivo studies in large animal models.
Interference using transgenes
A molecular genetic approach is the creation of transgenic organisms that overexpress a normal gene of interest. The resulting phenotype may reflect the normal function of the gene.
Alternatively it is possible to overexpress mutant forms of a gene that interfere with the normal (wildtype) gene's function. For example, over-expression of a mutant gene may result in high levels of a non-functional protein resulting in a dominant negative interaction with the wildtype protein. In this case the mutant version will out compete for the wildtype proteins partners resulting in a mutant phenotype.
Other mutant forms can result in a protein that is abnormally regulated and constitutively active ('on' all the time). This might be due to removing a regulatory domain or mutating a specific amino residue that is reversibly modified (by phosphorylation, methylation, or ubiquitination). Either change is critical for modulating protein function and often result in informative phenotypes.
Vaccine synthesis
Reverse genetics plays a large role in vaccine synthesis. Vaccines can be created by engineering novel genotypes of infectious viral strains which diminish their pathogenic potency enough to facilitate immunity in a host. The reverse genetics approach to vaccine synthesis utilizes known viral genetic sequences to create a desired phenotype: a virus with both a weakened pathological potency and a similarity to the current circulating virus strain. Reverse genetics provides a convenient alternative to the traditional method of creating inactivated vaccines, viruses which have been killed using heat or other chemical methods.
Vaccines created through reverse genetics methods are known as attenuated vaccines, named because they contain weakened (attenuated) live viruses. Attenuated vaccines are created by combining genes from a novel or current virus strain with previously attenuated viruses of the same species. Attenuated viruses are created by propagating a live virus under novel conditions, such as a chicken's egg. This produces a viral strain that is still live, but not pathogenic to humans, as these viruses are rendered defective in that they cannot replicate their genome enough to propagate and sufficiently infect a host. However, the viral genes are still expressed in the host's cell through a single replication cycle, allowing for the development of an immunity.
Influenza vaccine
A common way to create a vaccine using reverse genetic techniques is to utilize plasmids to synthesize attenuated viruses. This technique is most commonly used in the yearly production of influenza vaccines, where an eight plasmid system can rapidly produce an effective vaccine. The entire genome of the influenza A virus consists of eight RNA segments, so the combination of six attenuated viral cDNA plasmids with two wild-type plasmids allow for an attenuated vaccine strain to be constructed. For the development of influenza vaccines, the fourth and sixth RNA segments, encoding for the hemagglutinin and neuraminidase proteins respectively, are taken from the circulating virus, while the other six segments are derived from a previously attenuated master strain. The HA and NA proteins exhibit high antigen variety, and therefore are taken from the current strain for which the vaccine is being produced to create a well matching vaccine.
The plasmid used in this eight-plasmid system contains three major components that allow for vaccine development. Firstly, the plasmid contains restriction sites that will enable the incorporation of influenza genes into the plasmid. Secondly, the plasmid contains an antibiotic resistance gene, allowing the selection of merely plasmids containing the correct gene. Lastly, the plasmid contains two promotors, human pol 1 and pol 2 promotor that transcribe genes in opposite directions.
cDNA sequences of viral RNA are synthesized from attenuated master strains by using RT-PCR. This cDNA can then be inserted between an RNA polymerase I (Pol I) promoter and terminator sequence through restriction enzyme digestion. The cDNA and pol I sequence is then, in turn, surrounded by an RNA polymerase II (Pol II) promoter and a polyadenylation site. This entire sequence is then inserted into a plasmid. Six plasmids derived from attenuated master strain cDNA are cotransfected into a target cell, often a chicken egg, alongside two plasmids of the currently circulating wild-type influenza strain. Inside the target cell, the two "stacked" Pol I and Pol II enzymes transcribe the viral cDNA to synthesize both negative-sense viral RNA and positive-sense mRNA, effectively creating an attenuated virus. The result is a defective vaccine strain that is similar to the current virus strain, allowing a host to build immunity. This synthesized vaccine strain can then be used as a seed virus to create further vaccines.
Advantages and disadvantages
Vaccines engineered from reverse genetics carry several advantages over traditional vaccine designs. Most notable is speed of production. Due to the high antigenic variation in the HA and NA glycoproteins, a reverse-genetic approach allows for the necessary genotype (i.e. one containing HA and NA proteins taken from currently circulating virus strains) to be formulated rapidly. Additionally, since the final product of a reverse genetics attenuated vaccine production is a live virus, a higher immunogenicity is exhibited than in traditional inactivated vaccines, which must be killed using chemical procedures before being transferred as a vaccine. However, due to the live nature of attenuated viruses, complications may arise in immunodeficient patients. There is also the possibility that a mutation in the virus could result the vaccine to turning back into a live unattenuated virus.
See also
Forward genetics
References
Further reading
External links
Reassortment vs. Reverse Genetics
Reverse Genetics: Building Flu Vaccines Piece by Piece
Genetic engineering
Molecular genetics
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Classical genetics. Classical genetics is the branch of genetics based solely on visible results of reproductive acts. It is the oldest discipline in the field of genetics, going back to the experiments on Mendelian inheritance by Gregor Mendel who made it possible to identify the basic mechanisms of heredity. Subsequently, these mechanisms have been studied and explained at the molecular level.
Classical genetics consists of the techniques and methodologies of genetics that were in use before the advent of molecular biology. A key discovery of classical genetics in eukaryotes was genetic linkage. The observation that some genes do not segregate independently at meiosis broke the laws of Mendelian inheritance and provided science with a way to map characteristics to a location on the chromosomes. Linkage maps are still used today, especially in breeding for plant improvement.
After the discovery of the genetic code and such tools of cloning as restriction enzymes, the avenues of investigation open to geneticists were greatly broadened. Some classical genetic ideas have been supplanted with the mechanistic understanding brought by molecular discoveries, but many remain intact and in use. Classical genetics is often contrasted with reverse genetics, and aspects of molecular biology are sometimes referred to as molecular genetics.
Basic definitions
At the base of classical genetics is the concept of a gene, the hereditary factor tied to a particular simple feature (or character).
The set of genes for one or more characters possessed by an individual is the genotype. A diploid individual often has two alleles for the determination of a character.
Overview
Classical genetics is the aspect of genetics concerned solely with the transmission of genetic traits via reproductive acts. Genetics is, generally, the study of genes, genetic variation, and heredity. The process by which characteristics are passed down from parents to their offspring is called heredity. In the sense of classical genetics, variation is known as the lack of resemblance in related individuals and can be categorized as discontinuous or continuous. Genes are a fundamental part of DNA that is aligned linearly on a eukaryotic chromosome. Chemical information that is transported and encoded by each gene is referred to as a trait. Many organisms possess two genes for each individual trait that is present within that particular individual. These paired genes that control the same trait is classified as an allele. In an individual, the allelic genes that are expressed can be either homozygous, meaning the same, or heterozygous, meaning different. Many pairs of alleles have differing effects that are portrayed in an offspring's phenotype and genotype. The phenotype is a general term that defines an individual's visible, physical traits. The genotype of an offspring is known as its genetic makeup. The alleles of genes can either be dominant or recessive. A dominant allele needs only one copy to be expressed while a recessive allele needs two copies (homozygous) in a diploid organism to be expressed. Dominant and recessive alleles help to determine the offspring's genotypes, and therefore phenotypes.
History
Classical genetics is often referred to as the oldest form of genetics, and began with Gregor Mendel's experiments that formulated and defined a fundamental biological concept known as Mendelian inheritance. Mendelian inheritance is the process in which genes and traits are passed from a set of parents to their offspring. These inherited traits are passed down mechanistically with one gene from one parent and the second gene from another parent in sexually reproducing organisms. This creates the pair of genes in diploid organisms. Gregor Mendel started his experimentation and study of inheritance with phenotypes of garden peas and continued the experiments with plants. He focused on the patterns of the traits that were being passed down from one generation to the next generation. This was assessed by test-crossing two peas of different colors and observing the resulting phenotypes. After determining how the traits were likely inherited, he began to expand the amount of traits observed and tested and eventually expanded his experimentation by increasing the number of different organisms he tested.
About 150 years ago, Gregor Mendel published his first experiments with the test crossing of Pisum peas. Seven different phenotypic characteristics were studied and tested in the peas, including seed color, flower color and seed shape. The seven different characteristics which Mendel selected / checked for the experiment were as follows:
He checked the different shape of the ripen seeds
The color of the seed's albumen was checked
He then selected seed coat color
Shape of the ripen pods was seen
Color of the unripened pods was checked
Flower position on the axial was checked
Height of the plant was checked, as if it is tall or dwarf.
Mendel took peas that had differing phenotypic characteristics and test-crossed them to assess how the parental plants passed the traits down to their offspring. He started by crossing a round, yellow and round, green pea and observed the resulting phenotypes. The results of this experiment allowed him to see which of these two traits was dominant and which was recessive based upon the number of offspring with each phenotype. Mendel then chose to further his experiments by crossing a pea plant homozygous dominant for round and yellow phenotypes with a pea plant that was homozygous recessive for wrinkled and green. The plants that were originally crossed are known as the parental generation, or P generation, and the offspring resulting from the parental cross is known as the first filial, or F1, generation. The plants of the F1 generation resulting from this hybrid cross were all heterozygous round and yellow seeds.
Classical genetics is a hallmark of the start of great discovery in biology, and has led to increased understanding of multiple important components of molecular genetics, human genetics, medical genetics, and much more. Thus, reinforcing Mendel's nickname as the father of modern genetics.
In other words, we can say that classical genetics is basis of the modern genetics. Classical genetics is the Mendelian genetics or the older concepts of the genetics, which solely expressed based on the phenotypes resulted from breeding experiments while the modern genetics is the new concept of genetics, which allows the direct investigation of genotypes together with phenotypes.
Monohybrid Cross (3:1)
Dihybrid Cross (9:3:3:1)
See also
Dominance (genetics)
Genotype
Phenotype
Thomas Hunt Morgan
References
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Brachyspira innocens. Brachyspira innocens is a species of bacteria. It is thought to be a commensal bacterium.
References
External links
Bacterio entry
Straininfo entry
GBIF entry
Brachyspira innocens entry
EOL entry
Spirochaetes
Bacteria described in 1992
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Herbaspirillum chlorophenolicum. Herbaspirillum chlorophenolicum is a 4-chlorophenol-degrading bacterium from the genus Herbaspirillum.
References
External links
Type strain of Herbaspirillum chlorophenolicum at BacDive - the Bacterial Diversity Metadatabase
Burkholderiales
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Philobiblon. Philobiblon is a biannual peer-reviewed academic journal published by the Central University Library of Cluj-Napoca, Romania, in collaboration with Cluj University Press (Presa Universitară Clujeană). It was established in 1996 as a continuation of an irregular publication entitled Biblioteca și Învățămîntul (Library and Education).
The subtitles and publication frequency of the journal have changed several times: Bulletin of the Lucian Blaga Central University Library (1996−2008), Journal of the Lucian Blaga Central University Library (2009−2010), and currently: Transylvanian Journal of Multidisciplinary Research in Humanities. Until 2011 it was published annually (except for 1996−1997, when it was also published twice a year).The program of the journal has changed, completed over time: see the initial program (1996) and the next (2011)
Philobiblon is available electronically through EBSCO Publishing and ProQuest databases, as well as in print. The journal was ranked in 2011 by the Romanian National Council for Scientific Research in Higher Education in seven Humanities categories as a periodical having serious chances to gain international import: Arts; Philosophy; Architecture; History of Science; Historiography and Theory of History; Romanian Language and Literature; Foreign Languages and Literature.
Scope
Until 2011, issues of the journal were thematic, engaging several areas of academic research in the humanities and social sciences. As of 2011, the journal changed its profile, appearing with two issues per year as an academic journal of multidisciplinary research in humanities, covering research at the confluence of various branches of the humanities and social sciences and promoting the contemporary synergy of sciences (such as, for example, medical humanities).
Selected articles from Philobiblon are translated into Romanian in a series of biannually published anthologies entitled Hermeneutica Bibliothecaria.
Abstracting and indexing
The journal is abstracted and indexed in EBSCO databases, Library, Information Science & Technology Abstracts), ProQuest databases, Scopus, and ERIH PLUS.
References
External links
Multidisciplinary academic journals
Babeș-Bolyai University
Academic journals established in 1996
Biannual journals
English-language journals
Academic journals published by university presses
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Duncan Leitch (neurobiologist). Duncan Bernardo Leitch is a neurobiologist working at the University of California San Francisco. He was born in Memphis, Tennessee, in 1984. Leitch attended Vanderbilt University, where he gained recognition for his work on the integumentary sensory organs in crocodilians.
He has published many articles on star-nosed moles, naked mole-rats, and other insectivores.
In 2012, Kenneth C. Catania and Leitch published a study on the somatosensory sensation of crocodilians, including American alligators and Nile crocodiles in the Journal of Experimental Biology. This garnered public attention in the journals Nature, Science, National Geographic, and international news media. In this work, he and Catania describe the physiological response properties of neurons in the trigeminal ganglion, showing that the sense of touch in crocodilians surpasses those of human fingertips, despite being a thickly-scaled surface.
More recently, Leitch has led breakthrough studies in the field of electroreception, whereby he and his team characterized the molecular basis for electrosensation by sharks and skates
References
External links
Croc Jaws More Sensitive Than Human Fingertips
Zoology: Thick-skinned but sensitive. Nature 491, 304 (15 November 2012)
Crocs have super-sensitive jaws
Crocodile Skin Confers Delicate Touch Sense
1984 births
American neuroscientists
Vanderbilt University alumni
Living people
University of California, San Francisco staff
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Abbott v. Sandoz. Abbott v. Sandoz, 566 F.3d 1282 (Fed. Cir. 2009), was a US patent law case argued before the United States Court of Appeals for the Federal Circuit that established a bright-line ruling regarding claims of patent infringement relating to disagreements over so-called “product-by-process” claims. The case was decided on May 18, 2009.
Background
Abbott Labs had a patent on a specific drug called Omnicef used to combat ear infections. Lupin Limited had a court rule that a generic form of Omnicef it produced did not infringe on Abbott's patent since their process to make the drug was different. After the court had ruled in Lupin's favor, Abbott appealed and the case was combined with several other legal suits against smaller pharmaceutical companies, and thus was renamed Abbott v. Sandoz. The federal court affirmed the lower court's decision.
Case
For several years, the courts have disagreed on the product-by-process definition. Product-by-process refers to the question of determining if a product is legally different from another if it is created by a different process. Federal courts have offered contradictory resolutions on the subject. The court determined that a patent may limit itself if it specifically defines the process of creation.
Decision
Despite the legal discrepancies, the U.S. Court of Appeals for the Federal Circuit (CAFC) held that using a different process in this case did not infringe on Abbott's patent and ruled in Sandoz's favor, along with ruling in favor of the other small pharmaceuticals companies. Since Abbott had not patented all processes to create its drug, it could not protect from the processes being used by others.
Importance
This case further enforces the product-by-process definition, and holds that a patent does not protect from infringement through a different process unless necessarily described. Patent-holders seeking to cover their products entirely must find ways to protect every process to create the same item if they want complete protection from infringement.
References
External links
United States Court of Appeals for the Federal Circuit cases
United States patent case law
2009 in United States case law
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Luminosity (scattering theory). In scattering theory and accelerator physics, luminosity (L) is the ratio of the number of events detected (dN) in a certain period of time (dt) to the cross-section (σ):
It has the dimensions of events on time on area, and is usually expressed in the cgs units of cm−2·s−1 or the non-SI units of b−1·s−1. In practice, L is dependent on the particle beam parameters, such as beam width and particle flow rate, as well as the target properties, such as target size and density.
A related quantity is integrated luminosity (Lint), which is the integral of the luminosity with respect to time:
The luminosity and integrated luminosity are useful values to characterize the performance of a particle accelerator. In particular, all collider experiments aim to maximize their integrated luminosities, as the higher the integrated luminosity, the more data is available to analyze.
Examples of collider luminosity
Here are a few examples of the luminosity of certain accelerators.
References
Accelerator physics
Scattering theory
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Perth Children's Hospital. Perth Children's Hospital (PCH) is a specialist children's hospital in Nedlands, Western Australia, located at the corner of Winthrop Avenue and Monash Avenue on the Queen Elizabeth II Medical Centre (QEII) site. It is Western Australia's specialist paediatric hospital and trauma centre, providing medical care to children and adolescents up to 16 years of age.
This hospital provides treatment for the most serious medical cases, as well as secondary services including inpatient, outpatient and day-stay care for children and young people.
History
In 2008, the state government announced that a new children's hospital would be built to replace Princess Margaret Hospital for Children. In January 2012, Premier Colin Barnett and Minister for Health Kim Hames held a groundbreaking ceremony to mark the beginning of the construction.
On 30 September 2013, Premier Colin Barnett announced that the new 298-bed hospital would use the original 1909 name, Perth Children's Hospital. This name was chosen as part of efforts to promote "Perth as a major centre for medical health and medical research".
After structural and medical problems with the building delayed the hospital's opening multiple times, the hospital officially opened on 12 May 2018although some departments started operating earlier than that. Outpatients began to be accepted on 14 May 2018. Surgery opened on 28 May 2018, followed by the emergency department on 10 June 2018 coinciding with the closure of Princess Margaret Hospital.
Transport
PCH is from the Perth city centre, adjacent to Winthrop Avenue and opposite the western boundary of Kings Park. Drop off and pick up bays are available outside the main entrance and the emergency department. Paid parking may be available in the basement carpark at PCH (accessible from the southern end of Hospital Avenue), and in the QEII multi-deck carpark (accessible from Winthrop Avenue). The nearest public transport stops are along Hospital Avenue and Monash Avenue, operated by Transperth.
A pedestrian bridge, dual-named as The Kids' Bridge and Koolangka Bridge, was built in 2021, linking PCH with Kings Park.
Controversy
In April 2021, seven-year-old Aishwarya Aswath died, reportedly within 15 minutes of "a doctor finally" seeing her, at Perth Children's Hospital after waiting about two hours in the emergency department before doctors attended to her, despite her parents asking for help "four or five times". A month prior, emergency nurses at the hospital had formally warned of staffing levels and safety, pointing out "several incidents resulting in significant harm to patients".
See also
List of hospitals in Western Australia
Health care in Australia
References
External links
Children's hospitals in Australia
Hospitals in Perth, Western Australia
Hospitals established in 2018
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List of defunct medical schools in the United States. This list of defunct medical schools in the United States includes former medical schools that previously awarded either the Doctor of Medicine (MD) or Doctor of Osteopathic Medicine (DO) degree, either of which is required to become a physician in the United States. MD-granting medical schools are accredited by the Liaison Committee on Medical Education, while DO-granting medical schools are accredited by the American Osteopathic Association Commission on Osteopathic College Accreditation.
See also
Medical school in the United States
Medical education in the United States
List of medical schools in the United States
References
External links
American Association of Colleges of Osteopathic Medicine accredited medical schools
Liaison Committee on Medical Education accredited medical schools
Medical school seeking Liaison Committee on Medical Education accreditation
Medical schools in the United States
Medical school
Medical school
United States
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35 Pegasi. 35 Pegasi is a single star in the northern constellation of Pegasus. It is visible to the naked eye as a faint, orange-hued point of light with an apparent visual magnitude of 4.80. The star is located approximately 155 light years away from the Sun based on parallax, and is drifting further away with a radial velocity of +54 km/s. The star has a relatively high proper motion, traversing the celestial sphere at the rate of 0.318 arc seconds per annum.
This is an aging giant star with a stellar classification of K0III, having exhausted the hydrogen at its core and expanded to 8.5 times the Sun's radius. It is a red clump giant, indicating it is on the horizontal branch and is generating energy through helium fusion at its core. The star is five billion years old with 1.2 times the mass of the Sun. It is radiating 32 times the Sun's luminosity from its enlarged photosphere at an effective temperature of 4,676 K.
There are two distant visual companions: component B, at an angular separation of and magnitude 10.0, and C, at separation 176.3″ and magnitude 10.64.
References
K-type giants
Horizontal-branch stars
Pegasus (constellation)
BD+03 4710
Pegasi, 35
212943
110882
8551
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Chi Pegasi. Chi Pegasi, Latinised from χ Pegasi, is a single star in the northern constellation of Pegasus, along the eastern constellation border with Pisces. It has a reddish hue and is faintly visible to the naked eye with an apparent visual magnitude of 4.80. The distance to this star is approximately 368 light-years based on parallax, but it is drifting closer with a radial velocity of −46 km/s.
This is an aging red giant star on the asymptotic giant branch with a stellar classification of M2+III. It is about 8 billion years old with a mass 6% greater than the Sun's. With the supply of hydrogen at its core exhausted, the star has cooled and expanded to 53 times the girth of the Sun. It is radiating around 435 times the luminosity of the Sun from its swollen photosphere at an effective temperature of .
Chi Pegasi is a suspected small-amplitude variable. Koen and Eyer examined the Hipparcos data for Chi Pegasi, and found that its brightness varied by 0.0094 magnitudes, with a period of 5.9641 days.
References
External links
M-type giants
Suspected variables
Asymptotic-giant-branch stars
Pegasus (constellation)
Pegasi, Chi
BD+19 27
Pegasi, 89
001013
001168
0045
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Protoporphyrinogen IX dehydrogenase (menaquinone). Protoporphyrinogen IX dehydrogenase (menaquinone) (, HemG) is an enzyme with systematic name protoporphyrinogen IX:menaquinone oxidoreductase. This enzyme catalyses the following chemical reaction
protoporphyrinogen IX + 3 menaquinone protoporphyrin IX + 3 menaquinol
This enzyme enables Escherichia coli to synthesize heme in both aerobic and anaerobic environments.
References
External links
EC 1.3.5
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Fumarate reductase (quinol). Fumarate reductase (quinol) (, QFR, FRD, menaquinol-fumarate oxidoreductase, quinol:fumarate reductase) is an enzyme with systematic name succinate:quinone oxidoreductase. This enzyme catalyzes the following chemical reaction:
fumarate + quinol succinate + quinone
Fumarate reductase (QFR) is a key enzyme induced by anaerobic growth of bacteria. By partaking in fumarate respiration, fumarate reductase performs the last step in the microbial anaerobic respiration. It is a membrane bound protein capable of oxidizing a quinone and passing the released electrons to an awaiting fumarate to be reduced. It is activated and synthesized under low oxygen conditions, when aerobic respiration cannot be performed and the cell must perform anaerobic respiration to grow. This reaction is opposite to the reaction that is catalyzed by the related complex II of the respiratory chain (succinate dehydrogenase (SQR)).
Enzyme Structure
To date, a number of QFR enzymes have been crystalized and the specifics of enzyme structure varies between organisms; however, the overall structure remains similar across different species. Fumarate reductase complexes include four subunits. Subunit A contains the site of fumarate reduction and a covalently bound flavin adenine dinucleotide (FAD) prosthetic group. It is closely bound to subunit B, which contains three iron-sulfur centers, all placed near to each other and the nearby substrates. Subunit C consists of hydrophobic membrane-spanning, primarily helical segments and is the site of quinol oxidization. In some fumarate reductase structures, one or more heme groups are additionally bound to the C subunit and participate in the electron transfer. The D subunit contains hydrophobic alpha helices that span the membrane, but does not participate in the catalytic action of the enzyme. It may be required to anchor the catalytic components of the fumarate reductase complex to the cytoplasmic membrane.
Enzyme Mechanism
The reduction of fumarate in fumarate reductase is achieved via the oxidation of a quinol bound to subunit C and the resulting transfer of electrons down a chain of iron-sulfur clusters onto a waiting FAD molecule. The edge-to-edge distances between the quinol, the iron sulfur clusters, and the FAD in this enzyme do not exceed 12.5 Angstroms and can be seen on the image below. These short distances between electron receptors allow electrons to travel down the chain at a physiologically reasonable timescale. Once electrons have travelled down the iron-sulfur clusters, they pass onto the FAD molecule bound to the catalytic site of the enzyme. The final reduction of the fumarate is achieved in the active site where the asymmetrical charges from the nearby amino acids polarize the fumarate and distort its shape. Once the fumarate is no longer planar, a hydride from the bound FAD molecule in the active site attacks the double bond to reduce the fumarate. Thus, in this reaction, the fumarate serves as the terminal electron acceptor.
Relation to Succinate Dehydrogenase
Succinate dehydrogenase (SQR) is a key enzyme in both the citric acid cycle and the electron transport chain in the mitochondria of eukaryotes and single celled organisms. It is a key enzyme in aerobic respiration and it performs the opposite reaction of QFR, by coupling the reduction of a quinone to the formation of succinate for use in the citric acid cycle.
Both SQR and QFR are highly related and have been shown to have some functional overlap and redundancy in various organisms. QFR and SQR are both members of the conserved protein domain family SQR_QFR_TM and have highly similar structures. It has been shown that the A and B subunits of both proteins likely evolved from a common ancestral gene. Both enzymes have a common subunit arrangement containing a catalytic site, an iron-sulfur cluster containing subunit and one or two transmembrane subunits with quinone binding sites and heme binding sites if applicable. Additionally, Based on a study performed in E. coli, researchers have concluded that under some circumstances fumarate reductase is capable of replacing succinate dehydrogenase by oxidizing succinate to produce fumarate. And it has been shown that in Bacillus subtilis, SQR is able to successfully perform the function of fumarate reductase.
Biological Function
Fumarate reductase is involved in anaerobic respiration of multiple different organisms. Most of the information gathered about fumarate reductase is from the Escherichia coli fumarate reductase; however, fumarate reductase has also been studied in other organisms including Wolinella succinogenes, Helicobacter pylori, and Bacteroides fragilis. Each of these organisms has slightly different gene regulation and function in addition to different enzyme structures.
In E. coli, fumarate is the terminal electron acceptor of the energy producing electron transport chain and fumarate reductase performs the crucial last step in this energy producing process that allows E. coli to grow when aerobic respiration and/or fermentation is not feasible. Because of its role in cellular energy production, its function is closely regulated by multiple conditions to ensure optimal production of energy based on current cellular needs. In addition to low oxygen conditions, fumarate reductase genes are also activated by high concentrations of fumarate and repressed in the presence of other terminal electron acceptors including nicotinamide adenine dinucleotide (NAD) and nitrate. Nitrate suppression of fumarate reductase is common in E.coli and is carried out by two genes, narL a gene that encodes for nitrate reductase regulator proteins and narX that encodes for a nitrate sensor protein. Other man-made antibiotics, including Chalcones have also been proven to successfully inhibit fumarate reductase in addition to other cellular enzymes in order to cripple bacterial growth.
Fumarate reductase also has a notably high production of superoxide and hydrogen peroxide in E. coli. The single electron reactivity of FAD, iron-sulfur clusters, and quinones in the fumarate reductase could all contribute to electron transfer to oxygen. However, FAD has been shown to be the most significant cause of superoxide and peroxide formation in fumarate reductase, due to higher solvent accessibility in the active site than in the locations of the quinone and iron-sulfur clusters.
See also
Succinate dehydrogenase
References
External links
Fumarate reductase / succinate dehydrogenase FAD-binding site in PROSITE
EC 1.3.5
Protein domains
Transmembrane proteins
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Phycoerythrobilin synthase. Phycoerythrobilin synthase (, PebS) is an enzyme with systematic name (3Z)-phycoerythrobilin:ferredoxin oxidoreductase (from biliverdin IX alpha). This enzyme catalyses the following chemical reaction
(3Z)-phycoerythrobilin + 2 oxidized ferredoxin biliverdin IX alpha + 2 reduced ferredoxin
This enzyme, from a cyanophage infecting oceanic cyanobacteria of the Prochlorococcus genus.
References
External links
EC 1.3.7
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Pentalenolactone synthase. Pentalenolactone synthase (, Formerly , penM (gene), pntM (gene)) is an enzyme with systematic name pentalenolactone-F:oxidized-ferredoxin oxidoreductase (pentalenolactone forming). This enzyme catalyse the following chemical reaction
pentalenolactone F + oxidized ferredoxin pentalenolactone + reduced ferredoxin
This is heme-thiolate protein (P-450), which is isolated from the bacteria Streptomyces exfoliatus and Streptomyces arenae.
References
External links
EC 1.14.19
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Carvone reductase. Carvone reductase () is an enzyme with systematic name (+)-dihydrocarvone:acceptor 1,6-oxidoreductase. This enzyme catalyses the following chemical reaction
(1) (+)-dihydrocarvone + acceptor (-)-carvone + reduced acceptor
(2) (-)-isodihydrocarvone + acceptor (+)-carvone + reduced acceptor
This enzyme participates in the carveol and dihydrocarveol degradation pathway of the Gram-positive bacterium Rhodococcus erythropolis DCL14.
References
External links
EC 1.3.99
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31 Pegasi. 31 Pegasi is a single star in the northern constellation of Pegasus. It is visible to the naked eye as a dim, blue-white hued point of light with a baseline apparent visual magnitude of 4.99. It is located approximately 1,600 light years away from the Sun based on parallax, but is drifting closer with a radial velocity of −5.3 km/s.
This is a massive Be star with a stellar classification of B2IV-V. It is a γ Cas variable; a type of shell star with a circumstellar disc of gas surrounding the star at the equator, and ranges from 5.05 up to 4.85 in visual magnitude. It is spinning with a projected rotational velocity of 98 km/s, with the pole being inclined by an estimated angle of to the line of sight from the Earth. The star is 15.4 million years old with 12.5 times the mass of the Sun. It is radiating around 28,000 times the luminosity of the Sun from its photosphere at an effective temperature of 23,890 K.
References
B-type subgiants
Be stars
Gamma Cassiopeiae variable stars
Pegasus (constellation)
BD+11 4784
Pegasi, 31
212076
110386
8520
Pegasi, IN
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Nu Pegasi. ν Pegasi, Latinized as Nu Pegasi is a single star in the northern constellation of Pegasus. It is an orange-hued star that is faintly visible to the naked eye with an apparent visual magnitude of 4.84. The star is located approximately away based on parallax, but is drifting closer with a radial velocity of .
This is an aging giant star, most likely (94% chance) on the red giant branch, with a stellar classification of K4III. It is a suspected variable, with a magnitude range observed from 4.83 to 4.86. With the supply of hydrogen at its core exhausted, the star has cooled and expanded to 24.6 times the Sun's radius. It is 13% more massive than the Sun and is radiating 149 times the Sun's luminosity from its swollen photosphere at an effective temperature of .
References
K-type giants
Suspected variables
Pegasus (constellation)
Pegasi, Nu
BD+04 4800
Pegasi, 22
209747
109068
8413
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Rho Pegasi. Rho Pegasi, Latinized from ρ Pegasi, is a star in the northern constellation of Pegasus, near the southern constellation boundary with Pisces. This is a probable astrometric binary system, as determined by changes to the proper motion of the visible component. It has a white hue and is faintly visible to the naked eye with an apparent visual magnitude of 4.90. The system is located at a distance of approximately 274 light years from the Sun based on parallax, but it is drifting closer with a radial velocity of −10.6 km/s.
This visible component is an A-type main-sequence star with a stellar classification of A1V. The star is 331 million years old and is spinning with a projected rotational velocity of 107 km/s. It has 2.8 times the mass of the Sun and 3.1 times the Sun's radius. The star is radiating 110 times the luminosity of the Sun from its photosphere at an effective temperature of 9,484 K.
References
A-type main-sequence stars
Astrometric binaries
Pegasus (constellation)
Pegasi, Rho
BD+08 4961
Pegasi, 50
216735
113186
8717
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Outline of the Solar System. The following outline is provided as an overview of and topical guide to the Solar System:
Solar System – gravitationally bound system comprising the Sun and the objects that orbit it, either directly or indirectly. Of those objects that orbit the Sun directly, the largest eight are the planets (including Earth), with the remainder being significantly smaller objects, such as dwarf planets and small Solar System bodies. Of the objects that orbit the Sun indirectly, the moons, two are larger than the smallest planet, Mercury.
Regions and celestial objects of the Solar System
Sun ☉
Solar wind
Interplanetary medium
Inner Solar System
Inner planets
Mercury ☿
Venus ♀
Earth 🜨
The Moon ☾
Near-Earth objects
Van Allen radiation belt
Mars ♂
Moons of Mars
Asteroid belt
Asteroid groups
Asteroids
Ceres ⚳
Pallas ⚴
Juno ⚵
Vesta ⚶
Hygiea
Active asteroids
Kirkwood gaps
Outer Solar System
Outer planets
Jupiter ♃
Moons of Jupiter
Io
Europa
Ganymede
Callisto
Rings of Jupiter
Magnetosphere of Jupiter
Jupiter trojans
Saturn ♄
Moons of Saturn
Mimas
Enceladus
Tethys
Dione
Rhea
Titan
Iapetus
Rings of Saturn
Shepherd moons
Magnetosphere of Saturn
Uranus ⛢
Moons of Uranus
Miranda
Ariel
Umbriel
Titania
Oberon
Rings of Uranus
Neptune ♆
Moons of Neptune
Triton
Rings of Neptune
Trojans
Centaurs
Ubiquitous
Comets ☄
Meteoroids
Micrometeoroids
Cosmic dust
Interplanetary dust cloud
Trans-Neptunian region
Trans-Neptunian objects
Kuiper belt
Pluto ♇
Moons of Pluto
Charon
Haumea
Moons of Haumea
Ring of Haumea
Makemake
Moon of Makemake
Quaoar
Moon of Quaoar
Rings of Quaoar
Orcus
Moon of Orcus
Scattered disc
Eris
Moon of Eris
Gonggong
Moon of Gonggong
Farthest regions
Extreme trans-Neptunian objects
Detached objects
Sedna
Leleākūhonua
Oort cloud
Heliosphere
Heliopause
Boundaries
Location of the Solar System
From largest to smallest structure:
Universe
Observable universe
Pisces–Cetus Supercluster Complex
Laniakea Supercluster
Virgo Supercluster
Local Sheet
Local Group
Milky Way subgroup
Milky Way
Orion–Cygnus Arm
Gould Belt
Local Bubble
Local Interstellar Cloud – immediate galactic neighborhood of the Solar System.
Alpha Centauri – star system nearest to the Solar System, at about 4.4 light years away
Solar System – star and planetary system where the Earth is located.
Earth – the only planet known to have life.
Structure and composition of the Solar System
Interplanetary space
Physical characteristics of the Sun
Structure of the Sun
Solar core
Radiative zone
Convection zone
Photosphere
Chromosphere
Corona
Solar granulation
Sunspots
Solar prominences
Solar flares
Physical characteristics of Mercury
Structure of Mercury
Atmosphere of Mercury
Geology of Mercury
Physical characteristics of Venus
Structure of Venus
Atmosphere of Venus
Geology of Venus
Volcanism on Venus
Physical characteristics of the Earth
Figure of the Earth
Structure of the Earth
Earth's crust
Earth's mantle
Earth's outer core
Earth's inner core
Earth's magnetic field
Atmosphere of Earth
Geology of Earth
Lithosphere of Earth
Plate tectonics
Hydrosphere of Earth
Water distribution on Earth
Tides
Physical characteristics of Mars
Structure of Mars
Atmosphere of Mars
Geology of Mars
Volcanism on Mars
Geography of Mars
Water on Mars
Physical characteristics of Jupiter
Structure of Jupiter
Atmosphere of Jupiter
Great Red Spot
Physical characteristics of Saturn
Structure of Saturn
Atmosphere of Saturn
Saturn's hexagon
Physical characteristics of Uranus
Structure of Uranus
Atmosphere of Uranus
Physical characteristics of Neptune
Structure of Neptune
Atmosphere of Neptune
Great Dark Spot
History of the Solar System
History of the Solar System
Discovery and exploration of the Solar System
Discovery and exploration of the Solar System –
Timeline of Solar System astronomy
Timeline of discovery of Solar System planets and their moons
Timeline of Solar System exploration
Timeline of first images of Earth from space
Development of hypotheses
Geocentric model –
Heliocentrism –
Historical models of the Solar System
Planets beyond Neptune
List of former planets
List of hypothetical Solar System objects in astronomy
Space exploration – Exploration by celestial body
Exploration of Mercury
Observations and explorations of Venus
Exploration of the Moon
Exploration of Mars
Exploration of Ceres
Exploration of Jupiter
Exploration of Saturn
Exploration of Uranus
Exploration of Neptune
Exploration of Pluto
Solar System models
Formation and evolution of the Solar System
Formation and evolution of the Solar System –
Nebular hypothesis
Terrestrial planets
Iron planets
Mercury
Silicate planets
Geodynamics of Venus
History of Earth
Formation of Earth
Geological history of Mars
Giant planets
Gas giants
Jupiter
Saturn
Ice giants
Uranus
Neptune
Lists of Solar System objects and features
The number of currently known, or observed, objects of the Solar System are in the hundreds of thousands. Many of them are listed in the following articles:
By type
List of Solar System objects
List of gravitationally rounded objects of the Solar System
Planetary-mass object
List of natural satellites
Planetary-mass moon
List of possible dwarf planets
List of minor planets (numbered) and List of unnumbered minor planets
List of trans-Neptunian objects (numbered) and List of unnumbered trans-Neptunian objects
Lists of comets
By physical parameters and features
List of exceptional asteroids
Lists of geological features of the Solar System
List of craters in the Solar System
List of Solar System extremes
By size
List of Solar System objects by size
By distance
List of Solar System objects most distant from the Sun
List of Solar System objects by greatest aphelion
Features
List of tallest mountains in the Solar System
List of largest craters in the Solar System
List of largest rifts, canyons and valleys in the Solar System
Lists of Solar System exploring missions and spacecraft
Missions
List of missions to the Moon
List of missions to Venus
List of missions to Mars
List of missions to the outer planets
List of minor planets and comets visited by spacecraft
List of missions to minor planets
List of missions to comets
Spacecraft
List of Solar System probes
List of artificial objects in heliocentric orbit
List of objects at Lagrange points
List of artificial objects leaving the Solar System
List of lunar probes
Lunar Roving Vehicles
List of extraterrestrial orbiters
List of Mars orbiters
List of landings on extraterrestrial bodies
List of Mars landers
List of artificial objects on extraterrestrial surfaces
List of spacecraft intentionally crashed into extraterrestrial bodies
List of rovers on extraterrestrial bodies
See also
Outline of astronomy
Outline of space exploration
Astronomical symbols
Planetary mnemonic
HIP 11915 (a solar analog whose planetary system contains a Jupiter analog)
External links
dmoz page for Solar System
Origin of the Solar System (outline)
A Cosmic History of the Solar System
A Tediously Accurate Map of the Solar System (web based scroll map scaled to the Moon being 1 pixel)
NASA/JPL Solar System main page
NASA's Solar System Simulator
Solar System Profile by NASA's Solar System Exploration
Solar System
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Stephen C. Harrison. Stephen C. Harrison is professor of biological chemistry and molecular pharmacology, professor of pediatrics, and director of the Center for Molecular and Cellular Dynamics of Harvard Medical School, head of the Laboratory of Molecular Medicine at Boston Children's Hospital, and investigator of the Howard Hughes Medical Institute.
Education and career
He received his B.A. in chemistry and physics from Harvard in 1963, and was then a Henry fellow at the MRC Laboratory of Molecular Biology at Cambridge. In 1967, he received his Ph.D. in biophysics from Harvard, was a research fellow there as well as a junior fellow in the Society of Fellows, and joined the Harvard faculty in 1971.
Research
His wide-ranging studies of protein structure have contributed insights to viral architecture, DNA–protein recognition, and cellular signaling.
Harrison has made important contributions to structural biology, most notably by determining and analyzing the structures of viruses and viral proteins, by crystallographic analysis of protein–DNA complexes, and by structural studies of protein-kinase switching mechanisms. The initiator of high-resolution virus crystallography, he has moved from his early work on tomato bushy stunt virus (1978) to the study of more complex human pathogens, including the capsid of human papillomavirus, the envelope of dengue virus, and several components of HIV. He has also turned some of his research attention to even more complex assemblies, such as clathrin-coated vesicles. He led the Structural Biology team at the Center for HIV/AIDS Vaccine Immunology (CHAVI) when it received National Institute of Allergy and Infectious Diseases (NIAID) funding of around $300 million to address key immunological roadblocks to HIV vaccine development and to design, develop and test novel HIV vaccine candidates.
Society memberships
He is a member of American Academy of Arts and Sciences, National Academy of Sciences, American Philosophical Society, European Molecular Biology Organization, American Crystallographic Association and American Association for the Advancement of Science.
Awards
1982 Ledlie Prize, Harvard University
1988 Wallace P. Rowe Award, National Institute of Allergy and Infectious Diseases
1990 Louisa Gross Horwitz Prize (with Don Wiley and Michael Rossmann), Columbia University
1990 Harvey Lecturer, The Harvey Society, New York
1995 George Ledlie Prize, Harvard University
1997 ICN International Prize in Virology
2001 Paul Ehrlich and Ludwig Darmstaedter Prize (with Michael Rossmann)
2005 Bristol-Myers Squibb Award for Distinguished Achievement in Infectious Diseases Research
2006 Gregori Aminoff Prize in Crystallography (with David Stuart)
2007 UCSD/Merck Life Sciences Achievement Award
2011 William Silen Lifetime Achievement in Mentoring Award, Harvard Medical School
2012 Pauling Lectureship, Stanford University
2014 Elected as a Foreign Member of the Royal Society of London.
2015 The Welch Award in Chemistry
2015 Honorary Doctorate in Medicine, University of Milan
2018 48th Rosenstiel Award for research on proteins and viruses.
Personal life
Harrison has been married to Tomas Kirchhausen, who is currently a Professor at Harvard Medical School, since 2013. They first met in 1978 at a small dinner hosted by Ada Yonath. In the fall of 1979, Tom moved to Cambridge, MA, to work with Harrison, and the two have been in a relationship ever since.
References
Structural biology
American crystallographers
HIV/AIDS researchers
Harvard University alumni
Members of the United States National Academy of Sciences
Howard Hughes Medical Investigators
Living people
Foreign members of the Royal Society
Year of birth missing (living people)
American LGBTQ scientists
Members of the American Philosophical Society
Helen Hay Whitney Foundation fellows
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Centre for Earthquake Studies. The Centre for Earthquake Studies (CES) () is a federally funded research institute and national laboratory dedicated to the advancement in understanding of natural vibration, seismology, and yield-based energy measurement of seismic waves.
The CES was established through federal funding as a direct response to the devastating 2005 Kashmir earthquake in order to understand earthquakes and provide scientific prediction of quakes to improve earthquake preparedness. The CES is the only national site in Pakistan working on earthquake precursors.
The national laboratory is headquartered in the campus area of the National Centre for Physics (NCP) and conducts mathematical research in earth sciences, in close coordination with the NCP.
History
The national site was founded by the Government of Pakistan on the advice of the science adviser Dr. Ishfaq Ahmad. The establishment of the national site came in response to Pakistans' deadliest earthquake, the 2005 Kashmir earthquake on 8 October 2005. Initially created as the Earthquake Studies Department at the National Centre for Physics, it gained independence shortly after its establishment. The CES undertakes research studies in the development of expertise in anomalous geophysical phenomenon prior to seismic activity. The CES primarily produces its research outcomes by using computer simulation and mathematical modelling to interpret seismic activity and give earthquake predictions.
The CES's campus also includes the various ATROPATENA stations network, and supports its research and development with close collaboration with the Global Network for the Forecasting of Earthquakes. Its first and founding director was Dr. Ahsan Mubarak who is still designated as the CES's senior scientist. Currently, Dr. Muhammad Qaisar is the CES's current administrator.
Galleries
See also
2005 Pakistan earthquake
Notes
Official links
Official website
Nuclear weapons programme of Pakistan
Pakistan federal departments and agencies
2005 establishments in Pakistan
Geology organizations
Laboratories in Pakistan
Earth science research institutes
International research institutes
Research institutes in Pakistan
Science parks in Pakistan
2005 Kashmir earthquake
Earthquake engineering
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Organic Geochemistry. Organic Geochemistry is a monthly peer-reviewed scientific journal published by Elsevier covering research on all aspects of organic geochemistry. It is an official journal of the European Association of Organic Geochemists. The editors-in-chief are Bart van Dongen (University of Manchester), Elizabeth Minor (University of Minnesota Duluth), and Clifford Walters (University of Texas at Austin).
Abstracting and indexing
The journal is abstracted and indexed in:
According to the Journal Citation Reports, the journal has a 2023 impact factor of 2.6.
Notable articles
According to the Web of Science, the journal's two most cited papers () are:
(cited 766 times)
(cited 722 times)
References
External links
European Association of Organic Geochemists
Monthly journals
Academic journals established in 1977
English-language journals
Geochemistry journals
Elsevier academic journals
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Lichi Formation. The Lichi Formation () is a palaeontological formation located in Taiwan. It also called the "Liji Badlands" or the "Moon World of Liji".
References
Geologic formations of Asia
Geology of Taiwan
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2001 in philosophy. 2001 in philosophy
Events
Saul Kripke was awarded the Rolf Schock Prize in Logic and Philosophy "for his creation of the modal-logical semantics that bear his name and for his associated original and profound investigations of identity, reference and necessity".
Publications
Christopher Hitchens, Letters to a Young Contrarian (2001)
Alain Finkielkraut, The Internet, The Troubling Ecstasy (2001)
John A. Leslie, Infinite Minds: A Philosophical Cosmology (2001)
Mario Bunge, Philosophy in Crisis: The Need for Reconstruction (2001)
Introductory Books
Michael Williams, Problems Of Knowledge: A Critical Introduction to Epistemology (2001)
Deaths
January 5 - G. E. M. Anscombe (born 1919)
February 9 - Herbert A. Simon (born 1916)
February 24 - Claude Shannon (born 1916)
April 24 - Paul Thieme (born 1905)
May 28 - Francisco Varela (born 1946)
June 28 - Mortimer J. Adler (born 1902)
August 12 - Pierre Klossowski (born 1905)
September 30 - John C. Lilly (born 1915)
October 14 - David Lewis (born 1941)
December 20 - Léopold Sédar Senghor (born 1906)
References
Philosophy
21st century in philosophy
Philosophy by year
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1899 in philosophy. 1899 in philosophy
Events
Publications
Sigmund Freud, The Interpretation of Dreams (1899, dated 1900)
Thorstein Veblen, The Theory of the Leisure Class (1899)
Heinrich Rickert, Kulturwissenschaft und Naturwissenschaft (1899)
Philosophical literature
Joseph Conrad, Heart of Darkness (1899)
Births
May 8 - Friedrich Hayek (died 1992)
September 20 - Leo Strauss (died 1973)
Deaths
References
Philosophy
19th century in philosophy
Philosophy by year
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Russian swing. A Russian swing is a large, floor-mounted swing which is sometimes used in circus performances to make impressive high acrobatic jumps.
Unlike ordinary playground swings, a Russian swing has steel bars instead of ropes, and its swinging platform is able to rotate 360 degrees around the horizontal bar from which it is suspended. Two or more acrobats stand on the swing platform, pumping it back and forth until it is swinging in high arcs. One acrobat (the flyer) then jumps upwards off the swing before it slows to a stationary speed at the peak of its arc. By jumping off the moving swing the flyer can increase their kinetic energy by more than the increase obtainable by jumping from the ground or other stationary surface. The flyer can achieve enough altitude to execute one of various aerial flips before landing at a distance from the swing. The flyer may land on a crash mat, in a vertically slanted net, in the arms of other acrobats (referred to as catchers), in a pool of water, or even on the platform of another Russian swing.
Performing companies whose shows have used the Russian swing include:
Cirque du Soleil (Saltimbanco, O, Varekai, Love, Luzia)
Flying Angels
Ringling Bros. and Barnum & Bailey Circus (Zing Zang Zoom)
Moscow State Circus
Troupe Shatalov
UniverSoul Circus (Zhukau acrobatic troupe)
Vorobiev Troupe
Gamma Phi Circus at Illinois State University
The Great Moscow Circus (Australian touring circus)
Playgrounds
In Russia and other countries, the Russian swing is sometimes seen on playgrounds. However, the more typical swings in Russia will feature a regular seat, hung on steel bars.
See also
Circus skills
Russian bar
Kiiking
Sources
Circus equipment
Circus skills
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1845 in philosophy. 1845 in philosophy
Events
Publications
Alexander von Humboldt, Cosmos: A Sketch of the Physical Description of the Universe (1845)
William Whewell, The Elements Of Morality, Including Polity (1845)
Domingo Faustino Sarmiento, Facundo (1845)
Søren Kierkegaard, Stages on Life's Way (1845)
Births
March 3 - Georg Cantor (died 1918)
Deaths
May 12 - August Wilhelm Schlegel (born 1767)
February 22 - Sydney Smith (born 1771)
External links
References
Philosophy
19th century in philosophy
Philosophy by year
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University Hospital (TV series). University Hospital is an American medical drama series that aired from January 16 to May 1, 1995. It was part of a syndicated package of shows called the Spelling Premiere Network.
Premise
The series is about four student nurses at a university aka k1 hospital.
Cast
Main
Rebecca Cross as Megan Peterson
Hillary Danner as Jamie Fuller
Hudson Leick as Tracy Stone
Alexandra Wilson as Samantha "Sam" McCormick
Tonya Pinkins as Nurse Jenkins
Recurring
Doug a Wert as Dr. Rob Daniels
Michael Parlance as Mark
Episodes
References
External links
1995 American television series debuts
1995 American television series endings
1990s American medical drama television series
American English-language television shows
First-run syndicated television programs in the United States
Television series by Spelling Television
Television series by CBS Studios
Television shows filmed in Vancouver
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Halostachine. Halostachine (also known as N-methylphenylethanolamine) is a natural product, an alkaloid first isolated from the Asian shrub Halostachys caspica (synonym Halostachys belangeriana), and structurally a β-hydroxy-phenethylamine (a phenylethanolamine) related to its better-known "parent" biogenic amine, phenylethanolamine, to the adrenergic drug synephrine, and to the alkaloid ephedrine. The pharmacological properties of halostachine have some similarity to those of these structurally-related compounds, and Halostachys caspica extracts have been included as a constituent of certain OTC dietary supplements, but halostachine has never been developed as a prescription drug. Although it is found in nature as a single stereoisomer, halostachine is more commonly available as a synthetic product in the form of its racemate (see below). In appearance it is a colorless solid.
Occurrence
Naturally-occurring halostachine was first discovered by Syrneva in the halophytic plant Halostachys caspica (now classed as Halostachys belangeriana) (family Amaranthaceae). The erroneous structure originally proposed for this compound was subsequently corrected by Menshikov and Rubinstein.
Halostachine has also been isolated from perennial ryegrass, Lolium perenne and from tall fescue, Festuca arundinacea.
The presence of N-methylphenylethanolamine in rat brain was implied by the experiments described by Saavedra and Axelrod.
Chemistry
Synthesis
Several syntheses of racemic N-methylphenylethanolamine have been published over the years. A synthesis using "classical" methodology was reported by Durden and co-workers, starting from acetophenone. The methyl group of acetophenone was brominated with bromine to give α-bromoacetophenone, which was then reacted with N-methylbenzylamine to give an amino-ketone. The amino-ketone was reduced with lithium aluminium hydride to the corresponding amino-alcohol, and the N-benzyl group finally removed by catalytic hydrogenation using a palladium on charcoal catalyst.
Another synthesis, due to Nordlander and co-workers, began with the Friedel-Crafts acylation of benzene by N-(trifluoroacetyl)glycyl chloride in the presence of aluminum chloride. The resulting N-(trifluoroacetyl)-α-aminoacetophenone was then N-methylated with methyl iodide and potassium carbonate, and the product finally converted to racemic N-methylphenylethanolamine by means of sodium borohydride in ethanol.
An efficient, stereospecific synthesis of halostachine was reported by Zandbergen and co-workers: (R)-(+)-α-hydroxybenzeneacetonitrile was first O-protected using 2-methoxypropene. The product was then treated with DIBAL, and the unisolated imine then treated sequentially with ammonium bromide and methylamine to effect "transimination". The resulting N-methylimine was converted to (R)-(−)-α-[(methylamino)methyl]benzenemethanol (i.e. (R)-(−)-halostachine) with sodium borohydride.
Properties
Chemically, N-methylphenyethanolamine is an aromatic compound, an amine, and an alcohol. The amino-group makes this compound a weak base, capable of reacting with acids to form salts.
One common salt of N-methylphenylethanolamine is the (racemic) hydrochloride, C9H13NO.HCl, m.p. 103-104 °C.
The pKa of N-methylphenylethanolamine hydrochloride, at 25 °C and at a concentration of 10 mM, is 9.29.
The presence of the hydroxy-group on the benzylic C of the N-methylphenylethanolamine molecule creates a chiral center, so the compound exists in the form of two enantiomers, d- and l-N-methylphenylethanolamine, or as the racemic mixture, d,l- N-methylphenylethanolamine. The dextrorotatory isomer corresponds to the S-configuration, and the levorotatory isomer to the R-configuration.
The N-methylphenylethanolamine isolated from Halostachys caspica, and given the alkaloid name "halostachine", was found to be the levorotatory enantiomer.
Halostachine has a melting point of 43-45 °C and [α]D = - 47.03°; the hydrochloride salt of this enantiomer has m.p. 113-114 °C, and [α]D = - 52.21°. The resolution of racemic N-methylphenylethanolamine, by means of its tartrate salts, yielded enantiomers with specific rotations of [α]D = - 52.46° and + 52.78°.
Pharmacology
The first pharmacological investigation of synthetic, racemic N-methylphenylethanolamine (referred to as "methylphenylethanolamine" by these authors) was carried out by Barger and Dale, who found it to be a pressor, with a potency similar to that of phenylethanolamine and β-phenylethylamine in a cat preparation. Subsequently, this compound (still in the form of its racemate) was studied more thoroughly by Chen and co-workers, who confirmed its pressor activity, but observed that it was about one-half as potent as phenylethanolamine after i.v. administration in a cat preparation: a total dose of 5 x 10−6 M (or ~ 1 mg of the HCl salt) caused a maximum rise in blood pressure of 26 mm Hg. Additional experiments by these investigators showed that racemic N-methylphenylethanolamine also caused mydriasis in the rabbit eye (instillation of a drop of 0.05 M/L solution producing about 5 x as much dilation as the same dose of phenylethanolamine), inhibition of isolated rabbit intestine strips, and contraction of isolated guinea pig uterus. The drug was also astringent on nasal mucosa.
In man, an oral dose of 50 mg produced no effects on blood pressure, but this is only according to a single study from 1929.
Later studies by Lands and Grant on the effects of racemic N-methylphenylethanolamine (identified by the Sterling-Winthrop company codes "WIN 5529" or "WIN 5529-2") on blood pressure in intact dogs showed similar results to those obtained by Chen et al.: 0.41 mg/kg of the drug, given i.v., caused a rise in blood pressure of 38 mm Hg lasting 3–10 minutes. This effect was described as being ~ 1/200 x that produced by the same dose of epinephrine (or ~ 1/250 x when compared on a molar basis).
In sheep, halostachine produced only a slight mydriasis at a dose of 30 mg/kg, i.v., and "excitation" at 100 mg/kg; in guinea pigs, doses of 30 mg/kg, i.p., produced restlessness lasting about 1/2 hour, but 100 mg/kg, i.p., caused excitement, mydriasis, salivation, piloerection, muscular tremors, and increased heart and respiratory rates, with a return to normal after 1/2–2 hours.
Intravenous administration of the drug to dogs, in doses of ~ 6 – 18 mg/kg, was found to produce significant mydriasis (a 100% increase in pupil diameter resulting from a dose of 17.5 mg/kg), the effect being somewhat greater (~ 1.3 x) than that produced by the same doses of phenylethanolamine. N-Methylphenylethanolamine also caused a decrease in heart rate which was inversely related to the dose (i.e. progressively larger doses caused less bradycardia), and which was quantitatively less than that produced by the same doses of phenylethanolamine. The drug produced a fall in body temperature which was also inversely correlated with the dose, and which was smaller than that produced by the same doses of phenylethanolamine. Additional symptoms that were observed included profuse salivation and piloerection, although, in contrast to phenylethanolamine, N-methylphenylethanolamine did not produce any stereotyped or rapid eye movements. These results led the authors to suggest that N-methylphenylethanolamine was acting on both α and β adrenergic receptors.
Using a β2 adrenergic receptor preparation derived from transfected HEK 293 cells, Liappakis and co-workers found that in wild-type receptors, racemic N-methylphenylethanolamine (referred to by these authors as "halostachine") had ~ 1/120 x the affinity of epinephrine in competition experiments with 3[H]-CGP-12177, and was therefore about 3 x more potent than phenylethanolamine itself. Measurements of cAMP accumulation in intact transfected HEK 293 cells, after treatment with EEDQ to inactivate 98-99% of the receptors, indicated that "halostachine" was ~ 19% as effective as epinephrine in maximally-stimulating the cAMP accumulation in the wild-type receptors. "Halostachine" was thus interpreted as having partial agonist properties at β2 receptors.
Pharmacodynamics
The pharmacokinetics of N-methylphenylethanolamine, after i.v. administration to dogs, were studied by Shannon and co-workers, who found that the drug followed the "two-compartment model", with T1/2(α) ≃ 9.7 minutes and T1/2(β) ≃ 56.4 minutes; the "plasma half-life" of N-methylphenylethanolamine was therefore about 1 hour.
Biochemistry
In animal tissue, N-methylphenylethanolamine is formed by the action of the enzyme phenylethanolamine N-methyl transferase (PNMT), first isolated from monkey adrenal glands by Julius Axelrod, on phenylethanolamine.
The actions of monoamine oxidases MAO-A and MAO-B from rat brain mitochondria on N-methylphenylethanolamine were characterized by Osamu and co-workers, who found that at a concentration of 10 μM, this compound (stereochemical identity unspecified) was a specific substrate for MAO-B, but at 100 μM and 1000 μM it became a substrate for both MAO-A and MAO-B. The kinetic constants reported by these researchers were: Km = 27.7 μM; Vmax = 3.67 nM/mg protein/30 mins (high affinity), and Km = 143 μM; Vmax = 7.87 nM/mg protein/30 mins (low affinity).
Toxicity
The LD50 of N-methylphenylethanolamine in mouse is reported as 44 mg/kg, i.v., and ~ 140 mg/kg, i.p. (racemic; HCl salt).; in an earlier paper from the same year, Lands notes an approximate LD50 of 490 mg/kg (mouse, i.p.) for what is ostensibly the same drug, but coded as "WIN 5529", rather than "WIN 5529-2".
The minimum lethal dose of the racemate in rabbits, i.v., is given as 100 mg/kg.
Studies carried out to determine whether halostachine might be responsible for causing "ryegrass staggers" in Australia involved the administration of doses up to 100 mg/kg, i.v., in sheep, and 100 mg/kg, i.p., in guinea pigs, without any indication of lethality. Although apparently adrenergic effects were evident in the guinea pigs (see "Pharmacology", above), the investigators concluded that halostachine was unlikely to be the cause of the "staggers" syndrome.
See also
Phenylethanolamine
References
Phenethylamine alkaloids
Phenylethanolamines
Secondary amines
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Marlena Fejzo. Marlena Schoenberg Fejzo (born February 20, 1968) is an American medical scientist and professor of research on hyperemesis gravidarum.
Education
She received her undergraduate degree from Brown University in Applied Math in 1989 and a Ph.D. in Genetics from Harvard University in 1995. From 2000-2020, while working on the side on Hyperemesis Gravidarum due to her own personal experience with the condition, she worked on ovarian cancer in the department of Medicine at the University of California, Los Angeles, in the laboratory of Dennis J. Slamon. Currently she is research faculty at the University of Southern California, Keck School of Medicine.
Research
She has published peer-reviewed scientific articles on many diseases of women including ovarian cancer, breast cancer, multiple sclerosis, and discovered the first genes for uterine fibroids, nausea and vomiting of pregnancy, and hyperemesis gravidarum. In 2018, Fejzo, in collaboration with personal genetics company 23andMe, Inc, published the first link between nausea and vomiting of pregnancy and the placenta, appetite, and vomiting hormone GDF15 as well as other genes. In 2022, she published the first mutation in GDF15 associated with Hyperemesis Gravidarum (HG), solidifying the role of GDF15 as a predisposing factor for HG. In December, 2023, in collaboration with Stephen O'Rahilly and a team of international researchers, Fejzo published a study that identified the mechanism involved in nausea and vomiting of pregnancy and HG. The study identified ways to potentially prevent and treat both nausea and vomiting in pregnancy (common misnomer "morning sickness") and HG. Fejzo is a Research Advisor and Board Member of the Hyperemesis Education and Research Foundation.
Recognition
In 2023 Fejzo was named one of ten fiercest women in life sciences by Fierce Pharma and in 2024 was selected as a TIME Women of the year, a Time100 Health honoree, and a National NOW awardee.
Personal life
Fejzo is the granddaughter of the Austrian composers Arnold Schoenberg and Eric Zeisl, and the sister of the attorney E. Randol Schoenberg. She is the great-granddaughter of the Austrian physician and endocrinologist Rudolf Rafael Kolisch. Fejzo has three children.
References
1968 births
Living people
American medical researchers
American people of Austrian-Jewish descent
Brown University alumni
Harvard University alumni
David Geffen School of Medicine at UCLA faculty
University of Southern California faculty
Schoenberg, Marlena
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Looney 11 rule. In lunar photography, the Looney 11 rule (also known as the Looney rule) is a method of estimating correct exposures without a light meter. For daylight photography, there is a similar rule called the Sunny 16 rule. The basic rule is: "For astronomical photos of the Moon's surface, set aperture to and shutter speed to the [reciprocal of the] ISO film speed [or ISO setting]."
With ISO 100, the photographer should set the shutter speed to 1/100 or 1/125 second. (On some cameras, 1/125 second is the available setting nearest to 1/100 second.)
With ISO 200, set it to 1/200 or 1/250 second.
With ISO 400, set it to 1/400 or 1/500 second.
As with other light readings, shutter speed can be changed as long as the f-number is altered to compensate, e.g. 1/250 second at gives equivalent exposure to 1/125 second at . Generally, the adjustment is done such that for each step in aperture increase (i.e., decreasing the f-number), the exposure time has to be halved (or equivalently, the shutter speed doubled), and vice versa. This follows the more general rule derived from the mathematical relationship between aperture and exposure time—within reasonable ranges, exposure is proportional to the square of the aperture ratio and proportional to exposure time; thus, to maintain a constant level of exposure, a change in aperture by a factor requires a change in exposure time by a factor and vice versa. Steps in aperture correspond to a factor close to the square root of two, thus the above rule.
The intensity of visible sunlight striking the surface of the Moon is essentially the same as at the surface of the Earth. The albedo of the Moon's surface material is lower (darker) than that of the Earth's surface, and the Looney 11 rule increases exposure by one stop versus the Sunny 16 rule.
See also
Astrophotography
Night photography
Sunny 16 rule
References
External links
Lunar Photography Exposure Guide
Photographic techniques
Rules of thumb
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Titan Lake In-situ Sampling Propelled Explorer. Titan Lake In-situ Sampling Propelled Explorer (TALISE) is a Spanish space probe proposed in 2012 that would splash-down in Ligeia Mare, the second largest lake on Saturn's moon Titan. TALISE would navigate across the lake for six months to one year.
If this mission is approved by the European Space Agency (ESA), it would analyze the liquid hydrocarbons sea and take scientific measurements while it navigates to the coast in the northern region of Titan. It is also proposed in the mission to study the surrounding terrain of Ligeia Mare. This mission proposal was a joined project between the Spanish Astrobiology Center and SENER.
Naming
"Talise" is the Iroquois word for "beautiful water."
See also
Dragonfly, a proposed Titan lander and rotorcraft
Explorer of Enceladus and Titan (E2T)
Journey to Enceladus and Titan (JET)
Titan Mare Explorer
Titan Saturn System Mission
References
Planetary rovers
Missions to Saturn
Titan (moon)
Proposed space probes
Space program of Spain
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Westside Medical. Westside Medical is an American medical drama that aired from March 17 until August 25, 1977.
Premise
The series is about three young doctors working at a clinic in Southern California.
Cast
James Sloyan as Dr. Sam Lanagan
Linda Carlson as Dr. Janet Cottrell
Ernest Thompson as Dr. Phil Barker
Alice Nunn as Carrie
Episodes
References
External links
TV Guide
1977 American television series debuts
1977 American television series endings
1970s American medical drama television series
American English-language television shows
American Broadcasting Company television dramas
Television shows set in California
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Regulation of alternative medicine. Because of the uncertain nature of various alternative therapies and the wide variety of claims different practitioners make, alternative medicine has been a source of vigorous debate, even over the definition of "alternative medicine". Dietary supplements, their ingredients, safety, and claims, are a continual source of controversy. In some cases, political issues, mainstream medicine and alternative medicine all collide, such as in cases where synthetic drugs are legal but the herbal sources of the same active chemical are banned.
In other cases, controversy over mainstream medicine causes questions about the nature of a treatment, such as water fluoridation. Alternative medicine and mainstream medicine debates can also spill over into freedom of religion discussions, such as the right to decline lifesaving treatment for one's children because of religious beliefs. Government regulators continue to attempt to find a regulatory balance.
Jurisdiction differs concerning which branches of alternative medicine are legal, which are regulated, and which (if any) are provided by a government-controlled health service or reimbursed by a private health medical insurance company. The United Nations Committee on Economic, Social and Cultural Rights – article 34 (Specific legal obligations) of the General Comment No. 14 (2000) on The right to the highest attainable standard of health – states that
Specific implementations of this article are left to member states. Two governments, acting under the laws of their respective countries, maintain websites for public information making a distinction between "alternative medicine" and "complementary medicine". In North America, the National Institutes of Health (NIH) (a part of the U.S. Department of Health and Human Services) states:
"...people often use the words “alternative” and “complementary” interchangeably, but the two terms refer to different concepts: 'Complementary' generally refers to using a non-mainstream approach together with conventional medicine. 'Alternative' refers to using a non-mainstream approach in place of conventional medicine. True alternative medicine is not common. Most people use non-mainstream approaches along with conventional treatments. And the boundaries between complementary and conventional medicine overlap and change with time. For example, guided imagery and massage, both once considered complementary or alternative, are used regularly in some hospitals to help with pain management."
In the British Isles, the National Health Service (England)'s NHS Choices (owned by the Department of Health) states:
"Although 'complementary and alternative' is often used as a single category, it can be useful to make a distinction between complementary and alternative medicine. This distinction is about two different ways of using these treatments". "Treatments are sometimes used to provide an experience that is pleasant in itself. This can include use alongside conventional treatments, to help a patient cope with a health condition. When used this way the treatment is not intended as an alternative to conventional treatment. The US National Center for Complementary and Integrative Health (NCCIH) says that use of treatments in this way can be called 'complementary medicine'. Treatments are sometimes used instead of conventional medicine, with the intention of treating or curing a health condition. The NCCIH says that use of treatments in this way can be called 'alternative medicine'. There can be overlap between these two categories. For example, aromatherapy may sometimes be used as a complementary treatment, and in other circumstances is used as an alternative treatment. A number of complementary and alternative treatments are typically used with the intention of treating or curing a health condition. Examples include: homeopathy, acupuncture, osteopathy, chiropractic, herbalism."
United States
In the United States the Food and Drug Administration's online warnings for consumers about medication health fraud includes a section on Alternative Medicine Fraud, such as a warning that Ayurvedic products generally have not been approved by FDA before marketing.
Texas
In the state of Texas, physicians may be partially protected from charges of unprofessional conduct or failure to practice medicine in an acceptable manner, and thus from disciplinary action, when they prescribe alternative medicine in a complementary manner, if board specific practice requirements are satisfied and the therapies utilized do not present "a safety risk for the patient that is unreasonably greater than the conventional treatment for the patient's medical condition."
Colorado
Practice of alternative medicine in Colorado is governed by the Colorado Natural Health Consumer Protection Act. The act prohibits techniques such as psychotherapy, surgery, midwifery, or dentistry but, after full disclosure, permits many alternative practices such as color or aromatherapy which are deemed harmless. The exact provisions of the law are complex.
New Zealand
In New Zealand, alternative medicine products are classified as food products, so there are no regulations or safety standards in place.
Australia
In Australia, the topic is termed as complementary medicine and the Therapeutic Goods Administration has issued various guidances and standards. Australian regulatory guidelines for complementary medicines (ARGCM) demands that the pesticides, fumigants, toxic metals, microbial toxins, radionuclides, and microbial contaminations present in herbal substances should be monitored, although the guidance does not request for the evidences of these traits. However, for the herbal substances in pharmacopoeial monographes, the detailed information should be supplied to relevant authorities
The production of modern pharmaceuticals is strictly regulated to ensure that medicines contain a standardized quantity of active ingredients and are free from contamination. Alternative medicine products are not subject to the same governmental quality control standards, and consistency between doses can vary. This leads to uncertainty in the chemical content and biological activity of individual doses. This lack of oversight means that alternative health products are vulnerable to adulteration and contamination. This problem is magnified by international commerce, since different countries have different types and degrees of regulation. This can make it difficult for consumers to properly evaluate the risks and qualities of given products.
Denmark
In Denmark, herbal and dietary supplements is the designation of a range of products, which have in common their status as medicine belonging under the Danish Medicines Act. In the Danish Medicines Act there exist four types of herbal and dietary supplements: Herbal medicinal products, Strong vitamin and mineral preparations, Traditional botanical medicinal products and Homeopathic medicinal products. Some dietary supplements fall within a special category of products, which differ from the above in that they are not authorized medicinal products. Dietary supplements are regulated under the Food Act and are registered by the Danish Veterinary and Food Administration.
Alternative therapists
Denmark has a registration system for alternative therapy practitioners, RAB.
Switzerland
The Swiss Federal Constitution prescribes that the Confederation and the Cantons shall, within the scope of their powers, ensure that consideration is given to complementary medicine.
United Kingdom
Safety, quality and efficacy are the only criteria on which United Kingdom legislation is founded to control human medicines. Regulation of medicines and medical devices, to ensure they work and are acceptably safe, is the responsibility of the Medicines and Healthcare products Regulatory Agency. The legal status of medicines is determined under the Medicines Act 1968 and European Council Directive 2001/83/EC which control the sale and supply of medicines. The legal status of medicinal products is part of the marketing authorisation which allows products to be available on a prescription (referred to as Prescription Only Medicines), or in a pharmacy without prescription under the supervision of a pharmacist, or on general sale and saleable in general retail outlets without the supervision of a pharmacist.
There are 12 organisations in the United Kingdom known as health and social care regulators. Each organisation oversees one or more of the health and social care professions by regulating individual professionals across the UK. The General Medical Council is one of these, for medical practitioners who as physicians are registered and licensed to practise under the Medical Act 1983. Councils for other practitioners include the General Chiropractic Council under the Chiropractors Act 1994 and the General Osteopathic Council under the Osteopaths Act 1993.
See also
Regulation and prevalence of homeopathy
References
Alternative medicine
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Daniel K. Riskin. Daniel K. Riskin is a Canadian evolutionary biologist, television personality and producer. He hosted the Canadian television series Daily Planet.
Early life and education
He was born and raised in Edmonton, Alberta and currently lives in Toronto, Ontario. He received a BSc in zoology from the University of Alberta, an MSc in biology from York University, and a PhD in zoology from Cornell University. He also completed post-doctoral studies at Boston University and Brown University.
Career
Science
During high school, Riskin read a book called Just Bats by M. Brock Fenton. The book inspired him, so he contacted Fenton, then a professor at York University, and told him that he would like to meet him. Fenton invited him to come out to join his lab. Within a few months, Riskin was catching bats in Costa Rica.
Riskin has studied bats in Costa Rica, United States, Canada, Anguilla, France, Israel, Australia, New Zealand, Trinidad, Ecuador, South Africa and Madagascar and has filmed in United States, Morocco, England, China and Germany. He has authored or co-authored more than 20 papers.
After publishing a scientific paper about running vampire bats in 2005, Riskin was interviewed on Discovery Canada's flagship daily science show, Daily Planet, by then-host Natasha Stillwell. Years later, Riskin joined the show as the replacement for long-time host Jay Ingram.
Television
Riskin appears on the Animal Planet series Monsters Inside Me, which is about parasites, as an expert.
To promote that show, Riskin has appeared on The Dr. Oz Show (2009), The Tonight Show with Jay Leno (2010), and several times on The Late Late Show with Craig Ferguson (2010–2014). Riskin has also appeared on the shows Evolve (2008) and Bedbug Apocalypse (2011). In 2010, Riskin became the co-host of Daily Planet, on Discovery Channel Canada with Ziya Tong.
Although Riskin now works full-time in television, he still dabbles in bat research. On one of his first segments on Daily Planet, he filmed in China to look for the fishing bat which catches fish with its feet.
Writing
Riskin's first book, Mother Nature is Trying to Kill You: A Lively Tour Through the Dark Side of the Natural World, was published by Touchstone Books on March 4, 2014.
Television appearances
Evolve – Expert (2008)
Monsters Inside Me – Expert (2009–2017)
Bedbug Apocalypse – Expert (2011)
Human Nature – Host (2012)
Daily Planet – Co-Host (2011–2018)
Battle of the Alphas - Expert (2021-2022)
Mysteries From Above (2022-Present)
References
External links
Daily Planet Co-Host Bio: Dan Riskin
Living people
Cornell University alumni
Scientists from Edmonton
1975 births
Canadian evolutionary biologists
University of Alberta alumni
York University alumni
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Chidi Chike Achebe. Chidi Chike Achebe (born 24 May 1967) is a Nigerian-American physician executive. He is currently the chairman and CEO of AIDE (African Integrated Development Enterprise). AIDE is a Boston-based organization dedicated to the development of the African continent.
Dr. Achebe has also served as the president and CEO of Harvard Street Neighborhood Health Center, Medical Director of Whittier Street Health Center and as assistant professor at Tufts University School of Medicine– all in Boston, Massachusetts. Achebe also serves as medical consultant; Clean water for kids – an NGO that brings fresh water to underserved communities in Liberia; and advisor for Tesfa Health, Bahirdar, Ethiopia.
Background
Born in Enugu in southeastern Nigeria, Achebe is the third child of Chinua Achebe and Professor Christie Chinwe Okoli-Achebe. His father is regarded as the "father of modern African literature" and best known for the trilogy of classic African novels Things Fall Apart (1958); "No Longer at Ease" (1960); and "Arrow of God" (1964). In 1972, shortly after the end of the Nigerian civil war, the family moved to the U.S. for about five years while his father held professorships at American universities. They resided again in Nigeria during the 1980s, before returning to America. His younger sister Nwando Achebe is a historian and professor at Michigan State University.
Chidi Achebe is married to Maureen Okam-Achebe who is a Hematology/Oncology specialist at Harvard University's Brigham and Women's hospital. They have three sons.
Education and career
Achebe completed undergraduate studies in natural sciences, history and philosophy at Bard College; received an MPH from the Harvard School of Public Health, his MD at Dartmouth Medical School and an MBA degree at Yale University's School of Management. He also completed his residency in both Internal Medicine and Pediatrics at the University of Texas, Texas Medical Center in Houston, Texas. After several years of work at various Boston health centers, Achebe says he now sees "the struggle against inequalities in health and health care for all vulnerable, under served Americans, as the next stage of the Civil Rights movement".
Awards and Recognitions
Achebe was awarded the 2012 Dartmouth College Martin Luther King Award (Ongoing Category).
In May, 2022, Dr. Chidi Achebe was awarded the John and Samuel Bard Award in Medicine and Science by Bard College for his work with the underserved in the US and globally. The award had previously been presented to the two-time Nobel laureate Professor Linus Pauling as well as Nobel laureate Rosalyn Sussman Yalow, Mathilde Krim and Lewis Thomas.
Selected papers and publications
OIL: Prize or Curse (With Paul Epstein)
AIDS: A Disease of Mass Destruction
AIDS: An Assault to our shared humanity
Contributions of the African American: A Black History Month Essay
Prostate Cancer and Black Men: A call to Action
The Polio Epidemic in Nigeria: a Public Health Emergency (2)
Yale School of Management: Article on the Leadership in health Care program
References
Bard College alumni
Yale School of Management alumni
Physicians from Massachusetts
Living people
Harvard T.H. Chan School of Public Health alumni
Geisel School of Medicine alumni
American nonprofit chief executives
American health care chief executives
Chidi Chike
1967 births
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1986 in philosophy. 1986 in philosophy
Events
Publications
Saunders Mac Lane, Mathematics, Form and Function
Hans Blumenberg, Lebenszeit und Weltzeit (not yet translated into English)
David Gauthier, Morals by Agreement
David Lewis, On the Plurality of Worlds
Martha Nussbaum, The Fragility of Goodness
Thomas Nagel, The View from Nowhere
Deaths
January 9 - Michel de Certeau (born 1925)
February 17 - Jiddu Krishnamurti (born 1895)
February 19 - André Leroi-Gourhan (born 1911)
April 14 - Simone de Beauvoir (born 1908)
References
Philosophy
20th century in philosophy
Philosophy by year
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Medical Education for South African Blacks. Medical Education for South African Blacks (MESAB) was a 501(c)(3) organization that operated from 1985 to 2007. MESAB was a collaborative effort by Americans and South Africans to support the training of black South Africans in the health professions in an effort to improve health care for the black African population of South Africa. MESAB provided scholarships for black South African students at 26 South African universities and technikons, along with sundry training initiatives in community health clinics. MESAB was founded in 1985 by retired diplomat Herbert Kaiser and his wife Joy Kaiser and closed its doors in 2007. At the time of MESAB's founding, South Africa's apartheid policies dictated separate health facilities for blacks. These facilities were underfunded, underequipped, and understaffed compared with those provided to whites.
Accomplishments
From 1985-2007, MESAB's scholarship program provided a total of 11,243 grants (or, "bursaries") to needy students at 26 South African universities and technikons. In addition:
It pioneered South Africa's first mentor program to help students succeed. 6,000 students received guidance at 17 South African universities and technikons.
It supported advanced training for nurses in midwifery and neonatal care.
It encouraged and contributed to university rural outreach programs.
Its palliative care initiative promoted and supported home-based care for dying AIDS victims and training for doctors in palliative care.
It established awards for academic and professional achievement by black health professionals .
Founding context
MESAB was founded by Herbert Kaiser, a retired diplomat, and his wife Joy. They believed that additional black health professionals would immediately improve access to health care and that these new caregivers would play a greater role in formulating health policy and become leaders in a post-apartheid future. In 1984 there were fewer than 350 black doctors in a black population of over 20 million. Blacks comprised 70% of the population, but only 3% of all doctors were black.
The following statistics illuminate the problem:
Black life expectancy was 15 years less than for whites.
Maternal mortality was ten times greater for blacks than for whites.
Infant mortality was as high as 190 babies compared with 13.4 for white infants.
Deaths under the age of four: 55 percent of all deaths among blacks compared with 7 percent for whites.
Limited access to health care meant that blacks were dying from preventable diseases like TB, typhoid, gastroenteritis, and measles that were virtually eliminated in the white population.
Occupancy rates of 150% at hospitals for blacks were common, which often meant one in the bed and one on the floor.
Board structure
The US Board of Directors was drawn from the worlds of medicine, academia, civil rights organizations, and business. Its role was to establish broad policy guidelines and raise funds. The first Chairman of the Board was Donald Kennedy, then president of Stanford University and former Director of the Federal Food and Drug Administration. He was succeeded by Dr. Louis W. Sullivan, president of the Morehouse School of Medicine and former US Secretary of Health and Human Services.
The South African Council recommended and administered MESAB programs, among them financial aid and personal counseling. Its first Chairman was Professor Phillip V. Tobias, the noted paleoanthropologist and long-time opponent of apartheid. He was succeeded by Professor Mervyn Shear, who was followed by Dr. Nthato Motlana, a civic leader in Soweto and a close associate of Nelson Mandela. Council members were leaders of medical, educational, business, and community organizations.
Funding
Funding for MESAB came from corporate, foundation, and individual donors. Major contributors included Peter Bing, Peter Kovler, George Soros, David Tabatznik Bristol-Myers Squibb, Coca-Cola Co., Ford Motor Company, Henry Schein Inc., Hewlett Packard, Johnson & Johnson, Kaiser Permanente, Kellogg Foundation, Levi Strauss & Co., Pfizer, the Starr Foundation, and USAID, among many others. Over its 22 years of operations, MESAB raised over $27 million to help over 10,000 black students enter the health professions. Its graduates are now doctors, nurses, dentists, pharmacists, and other skilled caregivers responding to the health needs of all South Africans, especially those of black communities previously denied access to healthcare.
References
Further reading
Figuero, Angelo. "Paying a debt – with interest." San Jose Mercury News, 15 August 1994.
Greene, Elizabeth. "Healing the Scars of Apartheid." The Chronicle of Philanthropy, 20 October 1992.
Kaiser, Herb and Joy Kaiser. Against the Odds: Health & Hope in South Africa: The story of Medical Education for South African Blacks. CreateSpace Independent Publishing Platform, 2013.
Hodek, Ambassador Robert. rev. of Against the Odds. Foreign Service Journal, July/August 2013: 62.
Niekerk, J. P. de V. Van. "21 Years of Bursaries for Black Medics." South African Medical Journal, Vol. 96, No. 7 (2006).
Reed, William. "Business Exchange." Capital Spotlight, 5 April 1990.
Simon, Janine. "Thoughtful human beings should help fund medics." Johannesburg Star, 30 May 1995.
"South Africa lauds P.A. couple for helping medical students." San Jose Mercury News, 12 January 1996.
Williams, Adrienne Oleck. "Local Group sends Jewish and black doctors to South Africa." Washington Jewish Week, 8 September 1994.
Wren, Christopher S. "U.S. Helps Black South Africans Get M.D.'s." New York Times, 5 May 1991.
Health charities in the United States
Medical and health organisations based in South Africa
Foreign charities operating in South Africa
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Prasad V. Bharatam. Prasad V. Bharatam is Professor of Medicinal Chemistry at the National Institute of Pharmaceutical Education and Research, S.A.S. Nagar, India. His area of research include Quantum Medicinal Chemistry, Pharmacoinformatics,
synthesis of computationally designed molecules (anti-diabetic belonging to class PPAR-γ agonist and biguanides), drug delivery using dendrimers.
Awards
Fellowship of Alexander von Humboldt Stiftung, Bonn
IBM Faculty Award
Fellowship of Royal Society of Chemistry(FRSC), London
Chem. Research Society of India – Medal
Indian Academy of Sciences Fellowship
Ranbaxy Research Award
OPPI Scientist Award
Fellowship of Andhra Pradesh Akademi of Sciences
References
1962 births
Academic staff of the National Institute of Pharmaceutical Education and Research
Living people
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Tame animal. A tame animal is an animal that is relatively tolerant of human presence. Tameness may arise naturally (as in the case, for example, of island tameness) or due to the deliberate, human-directed process of training an animal against its initially wild or natural instincts to avoid or attack humans. The tameability of an animal is the level of ease it takes humans to train the animal, and varies among individual animals, breeds, or species.
In the English language, "taming" and "domestication" refer to two partially overlapping but distinct concepts. For example feral animals are domesticated, but not tamed. Similarly, taming is not the same as animal training, although in some contexts these terms may be used interchangeably.
Taming implies that the animal tolerates not merely human proximity, but at minimum human touching. Yet, more common usage limits the label "tame" to animals which do not threaten or injure humans who do not harm or threaten them. Tameness, in this sense, should be distinguished from "socialization" wherein the animals treat humans much like conspecifics, for instance by trying to dominate humans.
Taming versus domestication
Domestication and taming are related but distinct concepts. Taming is the conditioned behavioral modification of a wild-born animal when its natural avoidance of humans is reduced and it accepts the presence of humans, but domestication is the permanent genetic modification of a bred lineage that leads to an inherited predisposition toward humans. Human selection included tameness, but domestication is not achieved without a suitable evolutionary response.
Domestic animals do not need to be tame in the behavioral sense, such as the Spanish fighting bull. Wild animals can be tame, such as a hand-raised cheetah. A domestic animal's breeding is controlled by humans and its tameness and tolerance of humans is genetically determined. Thus, an animal bred in captivity is not necessarily domesticated; tigers, gorillas, and polar bears breed readily in captivity but are not domesticated. Asian elephants are wild animals that with taming manifest outward signs of domestication, yet their breeding is not human controlled and thus they are not true domesticates.
See also
Dressage and reining for horses
Lion taming
Tame bear
Tame elephant
Animals in professional wrestling
References
Sources
Stringham, S. F. 2010. When Bears Whisper, Do You Listen? WildWatch, Soldotna, AK.
Human–animal interaction
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AZ Canis Minoris. AZ Canis Minoris is a variable star in the equatorial constellation of Canis Minor. It is just visible to the naked eye in good viewing conditions as a dim, white-hued star with an apparent visual magnitude of around 6.46. The star is located around 500 light years away from the Sun based on parallax, and is drifting further away with a radial velocity of +15 km/s. No evidence has been found for a companion to this star, although in the past it has been reported as a binary star system.
This star has a stellar classification of A5 IV, matching an A-type subgiant star. The variable nature of this star was discovered in 1970 at Kitt Peak Observatory. It is a monoperiodic Delta Scuti variable with a cycle period of and an amplitude of 0.060 in visual magnitude; ranging from a peak magnitude of 6.44 down to 6.51. AZ Canis Minoris is nearly a billion years old with a projected rotational velocity of 44 km/s. It has 1.9 times the mass of the Sun and 3.8 times the Sun's radius. The star is radiating 48 times as much luminosity as the Sun from its photosphere at an effective temperature of 7,783 K.
References
A-type subgiants
Delta Scuti variables
Canis Minor
Durchmusterung objects
062437
037705
2989
Canis Minoris, AZ
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Mineralogical Society of Great Britain and Ireland. The Mineralogical Society of Great Britain and Ireland (now known as the Mineralogical Society of the United Kingdom and Ireland) was founded in 1876. Its main purpose is to disseminate scientific knowledge of the Mineral Sciences (mineralogy) as it may be applied to the fields of crystallography, geochemistry, petrology, environmental science and economic geology. In support of this vision, the society publishes scientific journals, books and monographs. It also organizes and sponsors scientific meetings, and the society connects with other societies which have similar scientific interests. Some of these other societies are the International Mineralogical Association, the European Mineralogical Union, the Mineralogical Society of America, the Mineralogical Association of Canada, the Geological Society of London, IOM3, the North of England Institute of Mining and Mechanical Engineers and the Microbiology Society.
Publications
The Society publishes a variety of book series; these are entitled the "Landmark Series", the "Mineralogical Society Special Series", and the "Monograph series". It also publishes scientific journals entitled Mineralogical Magazine, Clay Minerals, and the EMU Notes in Mineralogy. From 1920 to 2008 it also published the Mineralogical Abstracts bibliographic database. Mineralogical Magazine and Clay Minerals are hybrid journals, publishing both subscription-based and open access articles.
Awards and honours
Aside from the denotation of senior members or Fellows of the Society that are permitted to use the post-nomial 'FMinSoc', the Society recognises distinguished accomplishments through medals, lectures, honorary fellowships and awards:
The Mineralogical Society-Schlumberger Award, given from 1990 to 2021 through the generous sponsorship of Schlumberger Cambridge Research, is the most prestigious honour bestowed by the Society. It is awarded to recognise scientific excellence in mineralogy and its applications. From 2022, this award was renamed the Neumann Medal, in honour of Dr Barbara Neumann, a clay mineralogist and inventor of laponite. The criteria for the award remained the same.
The Max Hey Medal, given since 1993, recognises research of excellence carried out by young workers, within 15 years of the award of their first degree. It is named in honour of Max H. Hey (1904-1984), eminent British mineralogist.
The Collins Medal, given since 2010, is awarded annually to a scientist who has made an outstanding contribution to Mineral Sciences. The award is named after Joseph Henry Collins (1841–1916), mineralogist and one of the founding members of the Society.
Mineralogical Society lectures: Hallimond Lecture, George Brown Lecture, Society Distinguished Lecturer Programme.
Honorary membership/fellowship.
Undergraduate student awards.
Neumann Medal recipients
Source: Mineralogical Society
2024 Catherine McCammon
2023 Luca Bindi
2022 Lidunka Vocadlo
Schlumberger Award recipients
Source: Mineralogical Society
2021 Eric Oelkers
2020 Geoffrey Gadd
2019 Sergey Krivovichev
2018 Jonathan Lloyd
2017 Maggie Cusack
2016 Liane G. Benning
2015 Simon Harley
2014 Barbara Maher
2013 Michael A. Carpenter
2012 Simon Redfern
2011 Georges Calas
2010 Randy Parrish
2009 John Brodholt
2008 Dave Rubie
2007 Roger Powell
2006 David Vaughan
2005 Reinhard Boehler
2004 Dave Manning
2003 Hugh O'Neill
2002 Christopher Hawkesworth
2001 Tim Holland
2000 Paul Nadeau
1999 David Price
1998 Ekhard Salje
1997 Tony Fallick
1996 Mike Henderson
1995 Paul Ribbe
1994 Frank Hawthorne
1993 Ian Parsons
1992 Ian Carmichael
1991 Bernie Wood
1990 Jeff Wilson
Max Hey Medal recipients
Source: Mineralogical Society
2024 Luke Daly
2023 Richard Palin
2022 Sophie Nixon
2021 Anouk Borst
2020 Ekaterina Kiseeva
2019 Thomas Műller
2018 Oliver Lord
2017 Victoria Coker
2016 Philip Pogge von Strandmann
2015 Stuart J. Mills
2014 Chris Greenwell
2013 Nicholas J. Tosca and Hendrik Heinz (joint winners)
2012 Madeleine Humphreys
2011 Dan Morgan
2010 Takeshi Kasama
2009 Andrew Walker
2008 Diego Gatta
2007 Michele Warren
2006 A. Dominic Fortes
2005 Paul Hoskin
2004 Mark E. Hodson and Lidunka Vocadlo (joint winners)
2003 R.J. Harrison
2002 Dan J. Frost
2001 Andrew C. Kerr
2000 Ian C.W. Fitzsimons and R.W. Kent (joint winners)
1999 Alison Pawley
1998 M.R. Lee
1997 Jamie J. Wilkinson
1996 no award
1995 Simon C. Kohn
1994 Simon Redfern
1993 Ross John Angel
See also
Mineralogical Abstracts database
The Clay Minerals Society
References
External links
1876 establishments in the United Kingdom
Geology societies
Mineralogy
Organisations based in the London Borough of Richmond upon Thames
Professional associations based in the United Kingdom
Scientific organisations based in the United Kingdom
Scientific organizations established in 1876
Twickenham
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Jonathan Carapetis. Jonathan Carapetis (born 1961) is an Australian paediatric physician with particular expertise in infectious disease and Indigenous child health. He is a Winthrop Professor at the University of Western Australia, an infectious diseases consultant at Princess Margaret Hospital for Children, and an Honorary Distinguished Research Fellow of the Walter and Eliza Hall Institute of Medical Research. Carapetis is the Director of the Telethon Kids Institute in Perth, Western Australia.
He is a medical practitioner, specialist paediatric physician, infectious diseases physician, and a public health physician.
Early life and background
Carapetis was born in Port Pirie, South Australia. He moved to Washington DC in the mid-1970s where he lived for four years while his father worked as a civil engineer for the World Bank in Africa. It was during frequent visits to Africa to see his father that Carapetis developed an awareness and understanding of other cultures and governments.
The majority of his high school years were spent at an International school in the US completing the International Baccalaureate before he returned to Australia to study medicine at the University of Melbourne. He spent many of his university holidays flying back to Africa to spend time with his father and it was in Tanzania where he conducted his university related practical medical elective, immersing himself in a local community near Mt Kilimanjaro. It was here Carapetis developed an interest in child health and saw first-hand the challenges facing families struggling with poverty and with major health crises such as the onset of HIV, malaria, pneumonia and malnutrition.
Career
Carapetis undertook his internship and initial postgraduate medical training at the Royal Melbourne Hospital and at the Royal Children’s Hospital, Melbourne between 1987 and 1992 (interspersed with a year of traveling in 1990). He then worked as Chief Resident and Fellow in Infectious Diseases at the Royal Children's Hospital in Melbourne, as part of his specialisation training in paediatrics.
In 1994 he conducted doctoral studies at the Menzies School of Health Research, Charles Darwin University, into group A streptococcal diseases in the Aboriginal population. This work translated into important public health interventions, including the establishment of Australia's first rheumatic heart disease control program in the north of Australia. He also worked as a paediatrician at Royal Darwin Hospital.
Carapetis was awarded a PhD by the University of Sydney for his thesis: Ending the heartache; the epidemiology and control of acute rheumatic fever and rheumatic heart disease in the Top End of the Northern Territory. After a year spent working overseas as a Paediatric Infectious Diseases Fellow in Canada, Carapetis returned to Australia in 1999 where he was instrumental in setting up the Centre for International Child Health at the University of Melbourne. There he spent a lot of his time focusing on child health in developing countries and led some ground-breaking work in the development of affordable and effective vaccines to help children in both Fiji and Vietnam.
During this time in Melbourne Carapetis was also a Theme Director at the Murdoch Children's Research Institute and Consultant in Paediatric Infectious Diseases at Royal Children’s Hospital. In 2006 returned to Darwin where he had spent time in the mid-1990s to further his work in child health research with a particular focus on indigenous health. He held the position of Director of the Menzies School of Health Research from 2006 until June 2012. During the six years that Carapetis headed Menzies, funding was boosted by 20 million per annum, the school more than doubled in size, and Menzies developed a reputation as Australia’s leading research institute into Aboriginal and tropical health.
In July 2012 Carapetis was appointed the Director of the Telethon Kids Institute. He also is a Winthrop Professor at the University of Western Australia and an infectious diseases consultant at the Perth Children's Hospital (formerly known as Princess Margaret Hospital for Children).
Awards, honours and other recognition
In 2013, Carapetis was awarded Honorary Doctor of Science, Charles Darwin University, Northern Territory. In 2008 Carapetis was named the Northern Territory Australian of the Year and was selected as one of Australia’s 100 Smartest people (one of the Top Ten in Medicine and Health) in The Bulletin magazine "Smart 100" list. In 2006, he was selected as one of Australia’s Top Ten Scientific Minds aged under 45 years by Cosmos Magazine. Carapetis has written numerous textbook chapters on rheumatic fever, has been an invited speaker at more than 40 national and international conferences, and has over 150 peer reviewed publications. Carapetis' wide range of research interests includes group A streptococcal and pneumococcal diseases, other vaccine preventable diseases, vitamin D deficiency in refugees, and urinary tract infections in children.
Carapetis is an Honorary Professorial Fellow, Faculty of Engineering, Health Science and Environment, Charles Darwin University; a Professor, University of Queensland; an Honorary Distinguished Research Fellow, Menzies School of Health Research; an Honorary Fellow, Murdoch Children’s Research Institute; and an Honorary Distinguished Research Fellow of the Walter and Eliza Hall Institute of Medical Research. He became a Fellow of the Australian Academy of Health and Medical Sciences in 2015, while in 2022 he was elected Fellow of the Australian Academy of Science.
Personal life
Carapetis is married to paediatrician and epidemiologist Associate Professor Sue Skull. They have two children.
References
Further reading
Biography of Jonathan Carapetis on the Telethon Institute site
Research publications on the University of Western Australia site
Future Leaders Book Chapters: Aboriginal Health - Jonathan Carapetis
Australian of the Year Awards 2008
Guestroom: ABC Radio Darwin
Living people
1961 births
Academic staff of the University of Western Australia
Australian paediatricians
Fellows of the Australian Academy of Science
Fellows of the Australian Academy of Health and Medical Sciences
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FMN reductase (NAD(P)H). FMN reductase (NAD(P)H) (, FRG) is an enzyme with systematic name FMNH2:NAD(P)+ oxidoreductase. This enzyme catalyses the following chemical reaction
FMNH2 + NAD(P)+ FMN + NAD(P)H + H+
This enzyme contains FMN.
References
External links
EC 1.5.1
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FAD reductase (NAD(P)H). FAD reductase (NAD(P)H) (, GTNG_3158 (gene)) is an enzyme with systematic name FADH2:NAD(P)+ oxidoreductase. This enzyme catalyses the following chemical reaction
FADH2 + NAD(P)+ FAD + NAD(P)H + H+
This enzyme is isolated from the bacterium Geobacillus thermodenitrificans. It takes part in degradation tryptophan.
References
External links
EC 1.5.1
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List of universities in Isfahan province.
Governmental
Isfahan University of Technology
Isfahan University
Isfahan University of Medical Sciences
Isfahan University of Art
Mohajer Technical University of Isfahan, Isfahan
Kashan University of Medical Sciences
Isfahan University of Farhangian
Malek-Ashtar University of Technology
University of Kashan
Isfahan University of Social Welfare and Rehabilitation Sciences
Golpayegan University of Engineering
University of Defence Sciences and Technologies
Al-Musthafa International University-Esfahan Branch
Islamic Azad
Islamic Azad University
Islamic Azad University, Najafabad Branch
Islamic Azad University of Khomeynishahr
Islamic Azad University of Majlesi
Islamic Azad University of Khorasgan ( Isfahan )
Islamic Azad University of Kashan
Islamic Azad University of Felavarjan
Islamic Azad University of Golpayegan
Islamic Azad University of Shahreza
Islamic Azad University of Naeen
Islamic Azad University of Shahinshahr
Islamic Azad University of Dehaghan
Islamic Azad University of Dolatabad
Islamic Azad University of Meyme
Islamic Azad University of Semirom
Islamic Azad University of Fereydan
Islamic Azad University of Tiran
Independent
Ashrafi Isfahani Institute of Higher Education
Ragheb Isfahani Higher Education Institute
Sheikhbahaee University
Allameh Feiz Kashani Institute of Higher Education
Daneshpajoohan Institute of Higher Education
institute of higher education ACECR-Isfahan
Al-Musthafa International University-Isfahan
Isfahan Province
List
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Dalhana. Dalhana was a medieval commentator on the Sushruta Samhita, an early text on Indian medicine.
Dalhana's commentary is known as the Nibandha Samgraha.
It compiles the views of a large number of authors and commentators in the text who lived before Dalhana.
The date of Dalhana's work is determined by his quoting Cakrapani (fl. 1060) and his being quoted by Hemadri (fl. 1260), placing him between the late 11th and the early 13th century.
References
P. V. Sharma (1982), Dalhana and his Comments on Drugs, New Delhi, India Munshiram Manoharlal Publishers, .
P. V. Sharma (1999), Susruta-Samhita: With English Translation of Text and Dalhana's Commentary Along with Critical Notes, 3 Vols. Vol. I: Sutrasthana, Vol. II: Kalpasthana and Uttaratantra, Vol. III: Nidana, Sarira and Cikitsasthana; Chowkhamba Visvabharati; Varanasi.
Ayurvedacharyas
History of medieval medicine
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The American Journal of Managed Care. The American Journal of Managed Care is a monthly peer-reviewed medical journal published by Managed Care & Healthcare Communications.
The editors-in-chief are A. Mark Fendrick and Michael E. Chernew. In 2022 it had an impact factor of 3.2.
References
Academic journals established in 1995
Monthly journals
English-language journals
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Alessandro Ghigi. Alessandro Ghigi (9 February 1875 – 20 November 1970) was an Italian zoologist, naturalist and environmentalist.
Life
Alessandro Ghigi was born in Bologna on 9 February 1875. He attended the University of Bologna, graduating with a degree in Natural Sciences.
In 1900 he participated in founding the Emilian society Pro Montibus et Sylvis.
He was made a Doctor of Zoology in 1902, teaching at the Agricultural secondary school in Bologna and at the University of Ferrara.
In 1922 he became professor of zoology at Bologna, where he directed the Institute of Zoology.
He was rector of the University of Bologna from 1930 to 1943 .
In 1911 he was one of the founders of the Italian Journal of Ornithology.
In the first two decades of the twentieth century Ghigi, Erminio Sipari and Pietro Romualdo Pirotta championed the cause of a national park in the Abruzzo Appennines,
and they succeeded in causing the creation of the National Park of Abruzzo, established as a private initiative and inaugurated on 9 September 1922 before obtaining government recognition. In 1933 he founded the Zoology Laboratory, then geared towards hunting, now called the National Institute for Wildlife.
In 1938 Ghigi's name appeared among Italian scientists and intellectuals supporting the Fascist racial laws.
In 1939 he published a volume on Biological Problems of race and miscegenation that argued "the superiority of our race" and accused mestizos of being "the cause of decline and disintegration, a wound in natural evolution."
He was elected a deputy of the Kingdom of Italy in the XXIV legislature, and on 6 February 1943 he was appointed senator.
In 1951 Ghigi promoted establishment of the Commission for the Conservation of Nature and Natural Resources of the National Research Council, presiding over this committee until his death. In 1954 he co-founded the journal Atura e Montagna, which he directed from 1954 to 1966.
He was the author of hundreds of publications, particularly in zoology.
He also supervised the volume La Fauna (Milan 1959) of the Italian Touring Club.
Honors
Grand Officer of the Order of the Crown of Italy
Commander of the Order of Saints Maurice and Lazarus
Bibliography
L. Lama, Da un secolo all'altro. Profilo biografico e scritti di Alessandro Ghigi, 1875-1970, Clueb, Bologna 1993;
M. Spagnesi (a cura di), Alessandro Ghigi naturalista ed ecologo, Atti del Convegno (Bologna, 08.10.1999), Istituto nazionale per la fauna selvatica "A. Ghigi", Savignano 2000;
F. Pedrotti, Alessandro Ghigi, in Idem, Il fervore dei pochi. Il movimento protezionistico italiano dal 1943 al 1971, Temi, Trento 1998, pp. 168–176.
1875 births
1970 deaths
20th-century Italian writers
20th-century Italian male writers
20th-century Italian zoologists
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Brian Perry (veterinary surgeon). Brian Derek Perry, OBE (born 11 March 1946) is a British veterinary surgeon and epidemiologist renowned for the integration of veterinary epidemiology and agricultural economics, as a tool for disease control policy and strategy development, and specialised in international agricultural development. He is an Honorary Professor at the University of Edinburgh, a visiting professor at the Nuffield Department of Clinical Medicine, University of Oxford.
Early life and education
Brian Perry is from a farming family in Norfolk and was educated at Town Close School, Norwich and Wymondham College, Norfolk. He studied veterinary medicine at the Royal (Dick) School of Veterinary Medicine, University of Edinburgh and graduated as a veterinary surgeon in 1969. He later completed a Diploma in Tropical Veterinary Medicine (1971), an MSc in Tropical Veterinary Science (1975), and a Doctorate of Veterinary Medicine and Surgery (1987), all at the University of Edinburgh.
Career
Brian Perry has led many international research and development projects seeking a better understanding of the dynamics, control and impacts of tropical diseases of livestock, and the roles of livestock in international development; he has lived and worked in UK, Ethiopia, Colombia, Zambia, USA and Kenya, and has consulted widely in many countries of Africa, Asia and Latin America. He started his international career in Ethiopia on the rinderpest control programme, undertaking surveys of disease of importance to Ethiopia’s livestock sector. He then moved to Colombia, investigating the diseases of impact to the Colombian sheep industry, particularly those affecting smallholder farmers in the Andean region. He then built a veterinary epidemiology field programme in Zambia, investigating the constraints to the traditional livestock sector, before taking up a position at the Virginia–Maryland Regional College of Veterinary Medicine in the USA in 1982, where he initiated the epidemiology teaching and research programme at the Virginia–Maryland Regional College of Veterinary Medicine in the USA in 1982. He went on to lead the epidemiology and socioeconomics research programmes at the International Laboratory for Research on Livestock Diseases (ILRAD) and the International Livestock Research Institute (ILRI) for 20 years, where he specialised in the integration of veterinary epidemiology and agricultural economics to assess the impacts of livestock diseases and their control in low and middle income country settings. Since leaving ILRI in 2007 he has made several analytical contributions on the role of livestock and disease control in pro-poor growth. He recently reviewed the current demands on global livestock research, and the performance of the Consultative Group for International Agricultural Research (CGIAR) in a White Paper. He has led many independent evaluations of public funding investments in agricultural development and health in different countries and regions of the world, including the Real Time Evaluation of the global programme against highly pathogenic avian influenza, run by the Food and Agriculture Organization of the United Nations (FAO).
He chairs the Scientific Advisory Board of Afrique One Aspire, a Wellcome Trust-funded African Research Consortium for Ecosystem and Population Health comprising 11 universities and research institutes. He is an advisor to the Global Alliance for Livestock Veterinary Medicine (GALVmed)-administered AgResults Foot-and-Mouth Disease Vaccine Challenge Project. He sits on the judging panel of the Global Alliance for Livestock Veterinary Medicine (GALVmed)-administered AgResults Brucellosis vaccine prize competition. He is a member of the Management Board of the Medical Research Council (MRC)-funded International Veterinary Vaccinology Network. He is a member of the International Committee of World Horse Welfare. Brian Perry also contributes to the growth of African-led health research, providing mentorship for younger scientists and support for African capacity-building initiatives; he is chairman of the Scientific Advisory Board of Afrique One, an African Research Consortium for Ecosystem and Population Health, funded by the Wellcome Trust.
He is an author or co-author of some 300 scientific articles in refereed journals, books and proceedings.
Honours
Fellow of the Royal College of Veterinary Surgeons (1995) for meritorious contributions to learning in the field of veterinary epidemiology
Officer of the Order of the British Empire in the 2002 New Year Honours for services to veterinary science in developing countries
International Outstanding Scientist Award (2004) from Consultative Group for International Agricultural Research (CGIAR)
British Veterinary Association Trevor Blackburn Award (2012) for outstanding contributions to animal health and welfare in Africa, Asia and Latin America,
Doctor honoris causa (2015) from the Swedish University of Agricultural Sciences (SLU)
Personal life
He is married to Helena Perry (née Nyberg), and they have two daughters. Brian Perry has engaged in a wide variety of sporting and social activities, including squash, Rugby union in Colombia, windsurfing, flying aeroplanes, horse-racing, three-day eventing, polo, amateur dramatics, playing jazz, cooking, photography and painting. He remains an active polo player, and was Chairman of the Nairobi Polo Club, the Manyatta Polo Club and the Kenya Polo Association and Chief Steward of the Jockey Club of Kenya.
Selected publications
Saville, K., Bambara, C., Marry, A., Perry, B.D. (2020). ‘Invisible livestock’ – On the central roles of working horses, donkeys and mules on the smallholder farms that feed the world
Warimwe, G.M., Purushotham, J., Perry, B.D. et al. Tackling human and animal health threats through innovative vaccinology in Africa (2018). AAS Open Res 2018, 1:18 (doi: 10.12688/aasopenres.12877.1)
Perry, B., Robinson, T., & Grace, D. (2018). Review: Animal health and sustainable global livestock systems. Animal, 1-10. doi:10.1017/S1751731118000630
Perry, B. D. (2017). We must tie equine welfare to international development. Debate, Veterinary Record, 181: 600-601, doi: 10.1136/vr.j5561
Perry, B.D. (2016). The control of East Coast fever of cattle by live parasite vaccination: A science-to-impact narrative. One Health, 2, 103–114. doi:10.1016/j.onehlt.2016.07.002
Perry, B.D., Grace, D. G. (2015). How Growing Complexity of Consumer Choices and Drivers of Consumption Behaviour Affect Demand for Animal Source Foods. EcoHealth, 12, 703–712.
Perry, B.D. (2015). Towards a healthier planet: Veterinary epidemiology research at the International Laboratory for Research on Animal Diseases (ILRAD) and the International Livestock Research Institute (ILRI), 1987–2014. Research Report 38. International Livestock Research Institute (ILRI), Nairobi, Kenya.
Perry, B.D., Morton, J., Stur, W. (2014). A strategic overview of livestock research undertaken by the Consultative Group for International Agricultural Research (CGIAR) Consortium, 64 pp. Perry, B.D., Grace, D., Sones, K.R. (2011). Current drivers and future directions of global livestock disease dynamics. Proceedings of the National Academy of Sciences www.pnas.org/cgi/doi/10.1073/pnas.1012953108
Perry, B.D., Romero, J., Lora, E. (2012). Evaluación independiente del Proyecto Regional Integrado para el Control Progresivo de la Fiebre Aftosa en Bolivia, Colombia, Ecuador, Perú y Venezuela GCP/RLA/178/SPA y GTFS/RLA/172/ITA. FAO, Rome.
Bett, B., J. Henning, P. Abdu, I. Okike, J. Poole, J. Young, T. F. Randolph and B. D. Perry (2012). Transmission Rate and Reproductive Number of the H5N1 Highly Pathogenic Avian Influenza Virus During the December 2005 – July 2008 Epidemic in Nigeria.
Perry, B.D., Bell, L., Gasana, J., Kassa, Yewubdar, Kimoto, Tsukasa, Kumsa, Tesfaye, Tripp, Robert (2011). Independent Evaluation of the Programmes and Cooperation of the Food and Agriculture Organization of the United Nations in Ethiopia, FAO Rome, 89 pp.
Perry, B.D. and Grace, D. (2009). The impacts of livestock diseases and their control on growth and development processes that are pro-poor. Philosophical Transactions of the Royal Society, B, 364, 2643 – 2655.
Perry, B.D. and Rich, K (2007). The poverty impacts of foot and mouth disease and the poverty reduction implications of its control. Veterinary Record, 160, 238–241.
Perry, B.D. and Sones, K. R. (2007). Poverty reduction through animal health. Science 315, 333–334.
Perry, B.D. and Sones, K.R. (Editors) (2007). Global Roadmap for Improving the Tools to Control Foot-and-Mouth Disease in Endemic Settings. Report of a workshop held at Agra, India, 29 November −1 December 2006, and subsequent Roadmap outputs. ILRI (International Livestock Research Institute), Nairobi, Kenya, 88 pp. and CD-ROM.
Perry, B.D., McDermott, J.J. and Randolph, T.F. (2004). Control of infectious diseases: making appropriate decisions in different epidemiological and socio-economic conditions In: Infectious Diseases of Livestock, Volume 1, Editors J.A.W. Coetzer and R.C. Tustin, Oxford University Press, Cape Town, 178–224.
Perry, B.D., Gleeson, L.J., Khounsey, S., Bounema, P., Blacksell, S. (2002). The dynamics and impact of foot and mouth disease in smallholder farming systems in South East Asia: a case study in the Lao Peoples Democratic Republic. OIE Scientific and Technical Revue, 21, 663–673.
Perry, B.D., Randolph, T.F., McDermott, J.J., Sones, K.R. and Thornton, P.K. (2002). Investing in Animal Health Research to Alleviate Poverty. International Livestock Research Institute (ILRI), Nairobi, Kenya, 140 pp plus CD-ROM.
Perry, B.D., McDermott, J.J. and Randolph, T.F. (2001). Can epidemiology and economics make a meaningful contribution to national animal disease control? Preventive Veterinary Medicine, 48, 231–260.
Perry, B.D., (Editor), (1999). The economics of animal disease control. OIE Scientific and Technical Revue, Special Edition, 18, (2), 561 pp.
Norval, R.A.I., Perry, B.D. and Young, A.S. (1992). The Epidemiology of Theileriosis in Africa. Academic Press, London, 481 pp.
References
1946 births
Living people
British epidemiologists
British veterinarians
People educated at Town Close School
People educated at Wymondham College
Alumni of the University of Edinburgh
Academics of the University of Edinburgh
Academics of the University of Oxford
Officers of the Order of the British Empire
Fellows of the Royal College of Veterinary Surgeons
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Velocity (video game). Velocity is a shoot 'em up video game developed by FuturLab for the PlayStation 3, PlayStation Portable, and PlayStation Vita as a PlayStation mini. A sequel, Velocity 2X, was released on September 2, 2014 for PlayStation 4 and PlayStation Vita, and on August 19, 2015 for Steam and Xbox One.
Gameplay
Velocitys gameplay involves navigating the Quarp Jet – a teleporting spacecraft – through space, whilst avoiding and defeating enemies using bombs that can be flung in cardinal directions. The main goal of the game is to rescue stranded ships. The game adds depth by introducing new abilities and obstacles. The stranded ships are protected by shields that must be disabled by switches in a specific order. The player's ship has the ability to fire bombs. The game allows the player to teleport their ship anywhere. It also allows the player create telepods which they can return to anytime. The telepods add a puzzle element to the game because the player has to return to activate the switches in the right order.
Plot
Velocity is set in 2212. The star Vilio has collapsed into a black hole rendering the nearby space mining ships, colony cruisers, and special forces fighters without power. Only the Quarp Jet is capable of a rescue operation because it has the power to teleport. Unfortunately the mission is further complicated by the invasion of a neighboring race. Moreover, the ships can only be rescued after disabling their shields. The shields can only be disabled through circuit breakers. The circuit breakers are scattered, and must be deactivated in the correct order. In Velocity the player takes on the role of the Quarp Jet. They must find the station, disable their shields, and rescue the stranded ships. Concurrently they must also battle with the invading race, the Zetachron.
Development
Velocity was developed by FuturLab, which is based in Brighton. The idea for Velocity came from a musical tune composed by one of the game's creators James Marsden. The tune is featured in the critical urgency levels of the game. The game started development in June 2010. In August 2011 the main features and mechanics of the game were finalized. August 2011 was also when FuturLab signed a deal with PlayStation Plus that was essential to the game's completion. Velocity was mainly worked on by its creators: James Marsden, Robin Jubber and Kirsty Rigden. Additionally the creators also worked with sixteen freelance contractors, whose work on the game ranged from a few days to several months.
Velocity Ultra
Velocity Ultra is a high-definition remake of Velocity for the PlayStation Vita and was released on May 15, 2013. The remake includes numerous new features and upgrades and the graphics for Velocity Ultra have been completely remade to accommodate the high-definition resolution of the Vita. The art style has been reworked to be more consistent, and better match the upgraded graphics. Moreover, the remake includes Trophy support for the PlayStation Network. Furthermore, Velocity Ultra includes leaderboards; a global leaderboard, and a separate leaderboard for PlayStation Network friends. Additionally the game's user interface has been redesigned to support touch controls in addition to device buttons. Teleportation is possible simply by touching the screen, and bombs have been allocated to the right analog stick. The game is also available on PlayStation 3 and Steam.
Reception
Velocity has been met with positive reviews. Eurogamer's Rich Stanton rated the game an 8/10 saying, "Velocity looks like a blast from the past and plays like anything but; it's some sort of triumph of substance over style. That sounds like a good thing, and it is, but a little more of the latter wouldn't have hurt."
IGN adds "It's not the modest price that makes you love Velocity, though, it's the ideas – the casual, confident creativity and gradually unfolding scope of its levels". GameSpot gave Velocity a 7/10 noting that "initial parts of the game are repetitive".
Sequel
The sequel, titled Velocity 2X, was developed by FuturLab, published by Sierra Entertainment and released in September, 2014 on PlayStation 4 and PlayStation Vita, later ported to Microsoft Windows and Xbox One.
References
External links
Game website
Developer website
2012 video games
Curve Games games
FuturLab games
PlayStation 3 games
PlayStation Network games
PlayStation Portable games
PlayStation Vita games
Shoot 'em ups
Single-player video games
Video games developed in the United Kingdom
Video games featuring female protagonists
Video games scored by Joris de Man
Windows games
Video games set in the 23rd century
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Marla Ahlgrimm. Marla Ahlgrimm is an American entrepreneur, author, philanthropist, pharmacist and expert in women's hormonal health. She is the author of The HRT Solution: Optimizing Your Hormone Potential, which details the benefits of bioidentical hormone therapy and the book Self-Help For Premenstrual Syndrome. She is a frequent lecturer, has been featured as an expert in numerous professional journals and consumer magazines and has appeared on regional and national television and radio broadcasts.
Ahlgrimm is the co-founder of Madison Pharmacy Associates, the first pharmacy in the United States devoted to women's health. She is also the founder of Women's Health America and is currently the President of Cyclin Pharmaceuticals.
Career
Ahlgrimm began her career at a local pharmacy in Madison, Wisconsin. During her time there, she identified symptoms that affected some of her patients severely. She identified these symptoms as premenstrual syndrome (PMS), prior to PMS being widely used as a term in the United States. Her early research was inspired by British physician Dr. Katharina Dalton who coined the term PMS during the 1950s.
Ahlgrimm co-founded Madison Pharmacy Associates in 1982. Madison Pharmacy Associates was the first pharmacy in the United States specializing in women's health. She is considered a pioneer in the diagnosis and treatment of premenstrual syndrome, developing many of the bioidentical hormone therapy prescription options used today for hormone imbalance. She was one of the first to identify hormone testing options to understand individual hormone levels in women allowing for customization of hormone dosing. Ahlgrimm and her staff at Madison Pharmacy Associates provided care to women concerned with PMS, perimenopause, menopause, as well as specialized nutritional supplements and low dose, customized natural hormone prescription therapy. In 1997, she purchased competitor Bajamar Pharmacy, whose vice president praised Ahlgrimm stating, "She's more dedicated to women's health than anyone else I've met."
Ahlgrimm is also the founder of Women's Health America and sits on the UW-Madison School of Pharmacy Board of Visitors.
Bibliography
2012, HRT Solution, Revised Edition (Avery Health Guides), Avery Trade,
1999, Self-Help For Premenstrual Syndrome, Random House Publishing,
1998, The HRT Solution: Optimizing Your Hormone Potential, Avery,
References
External links
Marla Ahlgrimm on Pub Med
Marla Ahlgrimm in the International Journal of Pharmaceutical Compounding
Living people
21st-century American pharmacists
Women pharmacists
American medical writers
American women medical writers
Year of birth missing (living people)
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Phenotype microarray. The phenotype microarray approach is a technology for high-throughput phenotyping of cells.
A phenotype microarray system enables one to monitor simultaneously the phenotypic reaction of cells to environmental challenges or exogenous compounds in a high-throughput manner.
The phenotypic reactions are recorded as either end-point measurements or respiration kinetics similar to growth curves.
Usages
High-throughput phenotypic testing is increasingly important for exploring the biology of bacteria, fungi, yeasts, and animal cell lines such as human cancer cells. Just as DNA microarrays and proteomic technologies have made it possible to assay the expression level of thousands of genes or proteins all a once, phenotype microarrays (PMs) make it possible to quantitatively measure thousands of cellular phenotypes simultaneously. The approach also offers potential for testing gene function and improving genome annotation. In contrast to many of the hitherto available molecular high-throughput technologies, phenotypic testing is processed with living cells, thus providing comprehensive information about the performance of entire cells. The major applications of the PM technology are in the fields of systems biology, microbial cell physiology, microbiology, and taxonomy, and mammalian cell physiology including clinical research such as on autism. Advantages of PMs over standard growth curves are that cellular respiration can be measured in environmental conditions where cellular replication (growth) may not be possible, and that it is more accurate than optical density, which can vary between different cellular morphologies. In addition, respiration reactions are usually detected much earlier than cellular growth.
Technology
A sole carbon source that can be transported into a cell and metabolized to produce NADH engenders a redox potential and flow of electrons to reduce a tetrazolium dye, such as tetrazolium violet, which produces a purple color. The more rapid this metabolic flow, the more quickly purple color forms. The formation of purple color is a positive reaction. interpreted such that the sole carbon source is used as an energy source. A microplate reader and incubation facility are needed to provide the appropriate incubation conditions, and to automatically read the intensity of colour formation during tetrazolium reduction in intervals of, e.g., 15 minutes.
The principal idea of retrieving information about the abilities of an organism and its special modes of action when making use of certain energy sources can be equivalently applied to other macro-nutrients such as nitrogen, sulfur, or phosphorus and their compounds and derivatives.
As an extension, the impact of auxotrophic supplements or antibiotics, heavy metals or other inhibitory compounds on the respiration behaviour of the cells can be determined.
Data structure
During a positive reaction, the longitudinal kinetics are expected to appear as sigmoidal curves in analogy to typical bacterial growth curves. Comparable to bacterial growth curves, the respiration kinetic curves may provide valuable information coded in the length of the lag phase λ, the respiration rate μ (corresponding to the steepness of the slope), the maximum cell respiration A (corresponding to the maximum value recorded), and the area under the curve (AUC). In contrast to bacterial growth curves, there is typically no death phase in PMs, as the reduced tetrazolium dye is insoluble.
Software
Proprietary and commercially available software is available that provides a solution for storage, retrieval, and analysis of high throughput phenotype data. A powerful free and open source software is the "opm" package based on R. "opm" contains tools for analyzing PM data including management, visualization and statistical analysis of PM data, covering curve-parameter estimation, dedicated and customizable plots, metadata management, statistical comparison with genome and pathway annotations, automatic generation of taxonomic reports, data discretization for phylogenetic software and export in the YAML markup language. In conjunction with other R packages it was used to apply boosting to re-analyse autism PM data and detect more determining factors. The "opm" package has been developed and is maintained at the Deutsche Sammlung von Mikroorganismen und Zellkulturen. Another free and open source software developed to analyze Phenotype Microarray data is "DuctApe", a Unix command-line tool that also correlates genomic data. Other software tools are PheMaDB, which provides a solution for storage, retrieval, and analysis of high throughput phenotype data, and the PMViewer software which focuses on graphical display but does not enable further statistical analysis. The latter is not publicly available.
See also
Cell Painting
References
External links
PheMaDB website
Microbiology
Physiology
Phenomics
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Clayton Brough. Robert Clayton Brough (born May 29, 1950) is an American climatologist and teacher, best known for his position as a long-time weatherman of KTVX ABC 4 in Salt Lake City, which he held for twenty-eight years. He also worked on the weather team at KUTV. Brough taught middle school for thirty-one years, as well as serving as an Adjunct Instructor at both Brigham Young University and the University of Utah. He is the co-holder of several world records.
Climatology career
Robert Clayton Brough was born on May 29, 1950, in Los Angeles, California. In the mid-1970s, Brough served as executive vice-president of the American Geographical Research Corp. of Utah, where he studied the climate of the region. He began teaching in 1975, but temporarily left the field when in 1978 he became the director of research at WeatherBank Inc. In 1978 Brough also began his career as a member of the television weather team with KUTV in Salt Lake City. In 1980 he moved to KTVX in Salt Lake City, becoming the main weatherman at the station. Then in 1986 he moved to doing weather on the weekends in order to spend more time on his teaching career. Brough retired from ABC 4 in November 2008 after thirty years as a weatherman, which the network celebrated with a retirement tape tribute. Following his retirement he continued working with the Utah Center for Climate and Weather to author reports on the climate history and weather in the state. In April 2015 he performed six public service announcements on cancer detection and prevention for KBYU Television.
Teaching career
While working as an on-air weatherman, Brough also served as a middle school geography, journalism, and science teacher. In December 2005, Brough's students at the Eisenhower Junior High School in Taylorsville, Utah, broke the Guinness World Record for the longest chain of attached straws. The chain consisted of 42,963 individual straws and was 4.57 miles in length. This was the seventh record the school's students achieved with the help of Brough, at the time holding all seven at once. Previous records included the world's longest chain of paper clips reaching 22.17 miles in length built in 2004; the world's largest loaf of bread baked in 1987, weighing 307 lbs; the world's fastest human conveyor belt set in 2005 with the use of 100 student bodies; and the world's longest chain of balloons made in one hour, set in 2005 as well. Brough stated that he believed that the record-breaking attempts taught the children creativity, teamwork, and logistics. Brough was partially inspired to help the children by his own world record attempt, when in 1978 he helped make the world's largest calibrated slide rule, and co-holds the other records with the students.
Brough first taught at Springville Junior High in Springville, Utah, between 1975 and 1978. He returned to teaching at Springville in 1984, before moving to teach at Eisenhower in 1986. Brough also served as an Adjunct Instructor of Geography at Brigham Young University starting in 1989 and at University of Utah beginning in 2005. Brough retired from teaching responsibilities in 2012.
Publications
In the 1980s Brough co-authored Utah's Comprehensive Weather Almanac with Dale Stevens and Dale Jones. In 1996 Brough co-edited and contributed to the book Utah’s Weather and Climate with Dan Pope. In 2003 Brough built the Utah Center for Climate and Weather website with David James, to provide students with information and education about weather in the state. He also authored several other books.
Personal life
As a child and teenager, he was a longtime member of the Boy Scouts of America. In 1967 Brough was selected by his district to report on the status of Scouting in America to US President Lyndon Johnson. He received his BS in Geography and MS in geography from Brigham Young University. As a young man Brough married his wife Ethel, and the birth of his third child made the news when he was born in an ambulance that had stalled on the road. The two had four children together in total. In May 2004 Brough was diagnosed with non-Hodgkin's lymphoma, but the cancer was caught early allowing treatment to go well. He presently serves as the chief genealogist for the Brough Family Organization and is a practicing Mormon and active member of the Church of Jesus Christ of Latter-day Saints.
References
1950 births
Living people
American climatologists
American television weather presenters
Brigham Young University faculty
Schoolteachers from Utah
ABC News personalities
University of Utah faculty
Brigham Young University alumni
Latter Day Saints from California
Latter Day Saints from Utah
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Rider's British Merlin. Rider's British Merlin was one of the earliest almanacs to be published, issued from 1656 until at least 1830.
Content
The almanac contained the calendar, weather, and astronomical and astrological information that a typical almanac of the period would contain. The pages for each month of the year were accompanied by advice on what, and what not to eat and drink, and otherwise how to keep in good health. There were horticultural notes with abundant attention paid to herbs, fruit and vegetables.
The lengthiest sections of this little book listed annual fairs in England and Wales of fixed and moveable date. The first would generally be associated with a saint's day, while the second would be of the type "second Monday in October". This list of town names and dates represented important information in the days before Agricultural Advisers, Trade Fairs and Job Offices, when the fairs played an important role not only in buying and selling, but also in exhibiting innovations in husbandry, in information exchange and in the hiring of labour.
Who Was "Rider"?
It is generally held that Cardanus Rider is a pseudonym, and near-anagram: the letters rearrange as Ric_ard Saunder_. Richard Saunders was an English physician and astrologer, born in 1613, and who died (sources differ) either in 1675, 1687, or 1692.
The National Archives in London hold a book by Saunders on palmistry, with horoscopes; also attributed to him is The Astrological Judgment and Practice of Physick, published in 1677, although the fact that it includes charts from as early as 1616 to 1618 has led doubts to be cast on the actual authorship. Be that as it may, its subject matter was dear to the heart of "Cardanus Rider"; it stands as one of the earliest astro-medical treatises in the English language. Using the terminology of his day, the writer speaks of humours and winds, of conditions hot, cold or dry, of the cholerick and melancholy, of illnesses produced by the planets in the various signs of the zodiac, when to administer medicines based on planetary hours, and much more.
References
External links
Rider's British Merlin - Special collections - University of Glasgow
18th-century books
Almanacs
Agriculture books
Astronomy books
Astrological texts
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Monash Children's Hospital. Monash Children's Hospital is a major children's hospital in Melbourne, Australia.
Monash Children's Hospital is part of Monash Health, Victoria's largest healthcare service and one of only four accredited Academic Health Science Centres in Australia.
The hospital includes Victoria's largest Neonatal Intensive Care Unit and provides a full range of specialist services including surgical care, oncology, and rehabilitation services.
It is home to Victoria's only dedicated children's sleep science, is a state-wide referral service for thalassemia, and is a provider of fetal surgery services in partnership with Royal Women's Hospital and Mercy Hospital for Women, Melbourne.
Its services are linked to an adult service, allowing the hospital to provide transition-of-care as children grow older and move to an adult service.
New Monash Children's Hospital
After providing services from within adult hospitals for many years, in 2017 the purpose-built Monash Children's Hospital was opened in Clayton, Victoria.
Monash Children's Hospital is located alongside Monash Medical Centre, and includes the Monash Children's Hospital School.
The New Monash Children's Hospital service profile includes:
96 In-patient acute beds
10 Paediatric Intensive care beds
64 Monash Newborn cots
20 Early in Life Mental Health Service beds
8 Neuro Developmental Psychiatry beds
20 Same-day beds
12 Oncology same-day beds – 12
3 Operating theatres – plus a dedicated Endoscopy Suite
Sleep and Neurodiagnostic studies beds
Imaging Modalities – 3 modalities (MRI, Ultrasound and X-Ray)
Outpatient consulting rooms and Allied Health Therapy spaces
Dedicated Central Sterilising Services Department (CSSD)
A Starlight Children's Foundation Room
A Ronald McDonald House Chairities Family Room
A Hoyts beanbag cinema for patients
A Radio Lollipop studio
References
External links
Official website
Organisations based in Australia with royal patronage
Children's hospitals in Australia
Teaching hospitals in Australia
Hospitals in Melbourne
1896 establishments in Australia
Hospitals established in 1896
Buildings and structures in the City of Monash
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Strain-rate tensor. In continuum mechanics, the strain-rate tensor or rate-of-strain tensor is a physical quantity that describes the rate of change of the strain (i.e., the relative deformation) of a material in the neighborhood of a certain point, at a certain moment of time. It can be defined as the derivative of the strain tensor with respect to time, or as the symmetric component of the Jacobian matrix (derivative with respect to position) of the flow velocity. In fluid mechanics it also can be described as the velocity gradient, a measure of how the velocity of a fluid changes between different points within the fluid. Though the term can refer to a velocity profile (variation in velocity across layers of flow in a pipe), it is often used to mean the gradient of a flow's velocity with respect to its coordinates. The concept has implications in a variety of areas of physics and engineering, including magnetohydrodynamics, mining and water treatment.
The strain rate tensor is a purely kinematic concept that describes the macroscopic motion of the material. Therefore, it does not depend on the nature of the material, or on the forces and stresses that may be acting on it; and it applies to any continuous medium, whether solid, liquid or gas.
On the other hand, for any fluid except superfluids, any gradual change in its deformation (i.e. a non-zero strain rate tensor) gives rise to viscous forces in its interior, due to friction between adjacent fluid elements, that tend to oppose that change. At any point in the fluid, these stresses can be described by a viscous stress tensor that is, almost always, completely determined by the strain rate tensor and by certain intrinsic properties of the fluid at that point. Viscous stress also occur in solids, in addition to the elastic stress observed in static deformation; when it is too large to be ignored, the material is said to be viscoelastic.
Dimensional analysis
By performing dimensional analysis, the dimensions of velocity gradient can be determined. The dimensions of velocity are , and the dimensions of distance are . Since the velocity gradient can be expressed as . Therefore, the velocity gradient has the same dimensions as this ratio, i.e., .
In continuum mechanics
In 3 dimensions, the gradient of the velocity is a second-order tensor which can be expressed as the matrix :
can be decomposed into the sum of a symmetric matrix and a skew-symmetric matrix as follows
is called the strain rate tensor and describes the rate of stretching and shearing. is called the spin tensor and describes the rate of rotation.
Relationship between shear stress and the velocity field
Sir Isaac Newton proposed that shear stress is directly proportional to the velocity gradient:
The constant of proportionality, , is called the dynamic viscosity.
Formal definition
Consider a material body, solid or fluid, that is flowing and/or moving in space. Let be the velocity field within the body; that is, a smooth function from such that is the macroscopic velocity of the material that is passing through the point at time .
The velocity at a point displaced from by a small vector can be written as a Taylor series:
where the gradient of the velocity field, understood as a linear map that takes a displacement vector to the corresponding change in the velocity.
In an arbitrary reference frame, is related to the Jacobian matrix of the field, namely in 3 dimensions it is the 3 × 3 matrix
where is the component of parallel to axis and denotes the partial derivative of a function with respect to the space coordinate . Note that is a function of and .
In this coordinate system, the Taylor approximation for the velocity near is
or simply
if and are viewed as 3 × 1 matrices.
Symmetric and antisymmetric parts
Any matrix can be decomposed into the sum of a symmetric matrix and an antisymmetric matrix. Applying this to the Jacobian matrix with symmetric and antisymmetric components and respectively:
This decomposition is independent of coordinate system, and so has physical significance. Then the velocity field may be approximated as
that is,
The antisymmetric term represents a rigid-like rotation of the fluid about the point . Its angular velocity is
The product is called the vorticity of the vector field. A rigid rotation does not change the relative positions of the fluid elements, so the antisymmetric term of the velocity gradient does not contribute to the rate of change of the deformation. The actual strain rate is therefore described by the symmetric term, which is the strain rate tensor.
Shear rate and compression rate
The symmetric term (the rate-of-strain tensor) can be broken down further as the sum of a scalar times the unit tensor, that represents a gradual isotropic expansion or contraction; and a traceless symmetric tensor which represents a gradual shearing deformation, with no change in volume:
That is,
Here is the unit tensor, such that is 1 if and 0 if . This decomposition is independent of the choice of coordinate system, and is therefore physically significant.
The trace of the expansion rate tensor is the divergence of the velocity field:
which is the rate at which the volume of a fixed amount of fluid increases at that point.
The shear rate tensor is represented by a symmetric 3 × 3 matrix, and describes a flow that combines compression and expansion flows along three orthogonal axes, such that there is no change in volume. This type of flow occurs, for example, when a rubber strip is stretched by pulling at the ends, or when honey falls from a spoon as a smooth unbroken stream.
For a two-dimensional flow, the divergence of has only two terms and quantifies the change in area rather than volume. The factor 1/3 in the expansion rate term should be replaced by in that case.
Examples
The study of velocity gradients is useful in analysing path dependent materials and in the subsequent study of stresses and strains; e.g., Plastic deformation of metals. The near-wall velocity gradient of the unburned reactants flowing from a tube is a key parameter for characterising flame stability. The velocity gradient of a plasma can define conditions for the solutions to fundamental equations in magnetohydrodynamics.
Fluid in a pipe
Consider the velocity field of a fluid flowing through a pipe. The layer of fluid in contact with the pipe tends to be at rest with respect to the pipe. This is called the no slip condition. If the velocity difference between fluid layers at the centre of the pipe and at the sides of the pipe is sufficiently small, then the fluid flow is observed in the form of continuous layers. This type of flow is called laminar flow.
The flow velocity difference between adjacent layers can be measured in terms of a velocity gradient, given by . Where is the difference in flow velocity between the two layers and is the distance between the layers.
See also
Stress tensor (disambiguation)
, the spatial and material velocity gradient from continuum mechanics
References
Continuum mechanics
Rates
Tensor physical quantities
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Bennett's Cave. Bennett's Cave is a cave in the British Overseas Territory of Gibraltar. It forms part of the Gorham's Cave complex which have been nominated for UNESCO World Heritage Site status.
Description
Bennett's Cave is one of four caves which together make up the Gorham's Cave complex which has been nominated to become a UNESCO World Heritage Site. The other caves are Vanguard, Gorham's and Hyaena Cave. Bennett's cave, like the other three, has been gradually filled with sand that has been blown in over thousands of years. These sands fall and over time they build up to remarkable depths. In the case of Vanguard Cave and Gorham's Cave the deposits are more than seventeen metres deep. Because of this the layers of sand record the environment from 15,000 to 55,000 years ago when the area was very different. In the past, the sea level was lower and the shoreline was over 4,500 metres from the caves whereas today it is very close.
The cave is listed in the Gibraltar Government's Heritage and Antiquities Act 2018.
References
Caves of Gibraltar
Neanderthal sites
Limestone caves
Wild caves
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Terry Elton. Terry S. Elton is an American professor of pharmacology at the Ohio State University.
Education and academic history
Terry Elton is a biochemist who received his B.S. from Weber State University in Chemistry, his Ph.D. in Biochemistry from Washington State University, and performed postdoctoral work at Washington State University and the University of Alabama. As of 2019 Elton is a pharmacy professor and researcher at the Dorothy M. Davis Heart and Lung Research Institute at Ohio State.
Scientific misconduct
Elton was first accused of scientific misconduct in 2010 after certain images in his published works seemed to be doctored, and was subjected to an internal investigation by an Ohio State pharmacy department committee. Elton was originally cleared of allegations of misconduct after the university's investigatory committee concluded that the “irregular” images were a result of disorganization, not “intentional malfeasance.” However, in late December 2012, Elton was found guilty of scientific misconduct by both Ohio State University officials and the Office of Research Integrity. He was found to have falsified data in Western blots used to identify key proteins in his research into the brain chemistry of patients with Down syndrome. He also falsified Western blot data in a grant application to the National Institutes of Health. According to John Dahlberg, leader of the federal investigation into Elton's data, "It is clear from the PowerPoint that Dr. Elton has a long-standing convention of reusing figures to represent both control and experimental conditions. It would also appear that he has copied, resized/stretched/shrunk, darkened and flipped images (horizontally and vertically) ... to conceal similarities."
In 2012 the Office of Research Integrity recommended that six of Elton's published papers be retracted, and he voluntarily entered a three-year exclusion agreement in which he excluded himself from any contracts or subcontracts with any U.S. government agency and serving as an adviser in any form to the Public Health Services. Ohio State University also imposed its own penalties for Elton, including a prohibition from supervising any undergraduate or graduate students for three years, submitting all papers and grant applications to the university for review before proceeding with them for five years, and completing counseling on research misconduct and training on research ethics.
As of 2020, seven of Elton's research papers have been retracted.
Retracted papers
Chromosome 21-derived MicroRNAs Provide an Etiological Basis for Aberrant Protein Expression in Human Down Syndrome Brains
This article was published in the Journal of Biological Chemistry. In this paper, Elton and his lab were working with five microRNA genes. The ultimate results suggesting that the inactivation of the miRNA gene, Has-21, might provide a therapeutic tool in the treatment of down syndrome. The paper was first published on November 6, 2009. By the time the paper was retracted, it had already been cited 34 times. The paper was retracted due to falsified and/or fabricated “western blots” in figures 2C, 2D, 2F, 3C, 3E, 4G, 5C and 5F.
Human chromosome 21-derived miRNAs are overexpressed in down syndrome brains and hearts
This article was published in Elsevier. In this paper, the hypothesis was that the down syndrome gene dosage overexpression of Has-21 miRNA causes a decreased expression of specific target proteins which in turn causes the neuronal and cardiac symptoms that Down syndrome patients experience. The paper was first published on April 1, 2008. By the time the paper was retracted it had already been cited 74 times. The paper was retracted due to falsified and/or fabricated Western blots in figures 3B, 3C, 3F, 3H, 3I and 3J.
The Human Angiotensin II Type 1 Receptor 1166 A/C Polymorphism Attenuates MicroRNA-155 Binding
This article was published in the Journal of Biological Chemistry. This study by Elton's lab provided the first feasible biochemical mechanism by which the +1166 A/C polymorphism can lead to increased AT1R densities and possibly cardiovascular disease. The paper was first published on June 21, 2007. By the time the paper was retracted it had already been cited 184 times. The paper was retracted due to falsified and/or fabricated Western blots in figure 6 of the publication.
Transcriptional regulation of the AT1 receptor gene in immortalized human trophoblast cells
This article was published in the Biochimica et Biophysica Acta or BBA (Latin for Biochemical and Biophysical Journal). This article explains a discovery of an immortalized human trophoblast cell line responds to AngII a peptide that regulates contraction of smooth vascular muscle, fluid homeostasis, and sympathetic nervous activity. The research also suggests that it can be synthesized in the placenta (gives nutrients and water to the fetus) which increases a gene that allows for less trophoblast invasiveness which is the main cause for Preeclampsia. The paper was retracted due to the fabricated blots in Figure 6. It has been cited six times.
TGF-β1 regulation of human AT1 receptor mRNA splice variants harboring exon 2
This article was published in Molecular and Cellular Endocrinology. This article discusses how the inclusion of exon 2 in hAT1R mRNA transcripts dramatically decreases hAT1R protein levels and the responsiveness of Ang II. AT1R activation is closely associated with cardiovascular disease, the inclusion of exon 2 by alternative splicing represents a novel mechanism to reduce the overall production of the hAT1R protein and possibly limit the potential pathological effects of AT1R activation. This paper was retracted due to fabricated blots in Figures 5, 6B,7B,9B. This paper was cited 11 times.
See also
List of scientific misconduct incidents
References
21st-century American biochemists
Living people
Weber State University alumni
Year of birth missing (living people)
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Norwegian Hospital and Health Service Association. The Norwegian Hospital and Health Service Association () is an interest organisation in Norway.
It was founded as the Norwegian Hospital Association in 1937. It is a member body of the International Hospital Federation and the European Association of Hospital Managers. It organizes health trusts, health service bodies of municipalities, private hospitals, health education institutions, patient organizations, health utility suppliers and interested people.
Chairman of the board is Erik K. Normann, secretary-general is May Britt Buhaug and the organizational headquarters are in Nedre Slottsgate in Oslo.
References
External links
Official site
Medical and health organisations based in Norway
Organizations established in 1937
Organisations based in Oslo
1937 establishments in Norway
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Norwegian Junior Doctors Association. The Norwegian Junior Doctors Association () is a vocational organisation in Norway.
It organizes younger physicians, and is a body of the Norwegian Medical Association. It was founded on 5 November 1911.
References
External links
Official site
Trade unions in Norway
Organizations established in 1911
Organisations based in Oslo
1911 establishments in Norway
Medical associations based in Norway
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Real Instituto y Observatorio de la Armada. The Real Instituto y Observatorio de la Armada (Royal Institute and Observatory of the Spanish Navy) is the scientific institute and astronomical observatory of the Spanish Navy (Armada), located in San Fernando in the Province of Cádiz, Andalusia, Spain.
History
It was founded in 1753 and is the oldest in Spain. Astronomy was of particular importance to the navy in the context of navigation. In 1790 the Royal Observatory in Madrid was built to take over the purely astronomical work of the facility at San Fernando.
Current activities
In recent years the observatory has been adversely affected by light pollution. However, it uses laser technology to monitor pieces of space junk.
The observatory operated a time ball so that ships at sea could synchronize their clocks.
After better timekeeping at sea made it obsolete, it was disabled, but it was reactivated in the late 20th century every day at 13:00.
See also
ROA Time
References
External links
Astronomical observatories in Spain
Buildings and structures in San Fernando, Cádiz
1753 establishments in Spain
Spanish Navy
Time balls
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Kenya Medical Practitioners and Dentists Board. The Kenya Medical Practitioners and Dentists Council is a statutory body which regulates the training and practice of medicine, dentistry and community oral health in Kenya.
External links
First ever scope of practice developed
Medical Practitioners and Dentists Council
References
Medical and health organisations based in Kenya
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Yehia El-Gamal (pediatrician). Yehia El-Gamal (died 6 March 2021) was an Egyptian Professor of Pediatrics, Pediatric Allergy and Immunology Unit, and Chairman (1997-2001) of the Department of Pediatrics, Children's Hospital, Faculty of Medicine Cairo, Egypt. He established the first specialized unit of Pediatric Allergy and Immunology in Egypt in February 1988, and was president of the Egyptian Society of Pediatric Allergy and Immunology (ESPAI) which he founded in 2002, and editor-in-chief of the Egyptian Journal of Pediatric Allergy and Immunology.
Career
He was a member of the Technical Advisory Group of the World Health Organization (WHO) for polio eradication from 2003 and shared in research projects with the WHO, CDC (Atlanta, Georgia) and the Egyptian Ministry of Health to evaluate the efficacy of different types and regimens of oral polio vaccination.
He has 110 publications in international regional and national periodicals and was a member of the editorial board and regular reviewer of many national and international journals. He also supervised 30 PhD and 89 Masters Theses in pediatrics.
Honours
He received the Egyptian Appreciation Award in Medical Sciences 2014.
He was a Fellow of the American Academy of Allergy, Asthma and Immunology(AAAAI) since 1992 and chair of its Middle East and Africa Region Committee of the AAAAI from 2008 to 2011. He received the ACAAI Distinguished International Fellow Award in 2009.
He was member of the World Allergy Organization (WAO) board of directors (2007-2011) and chair of the WAO's bylaws committee and co-chair of its ethics committee (2009-2011). He was associate editor of the WAO Journal since September 2007. He was granted the WAO Distinguished International Service Award 2011.
He was a member of several Egyptian National Specialized Councils and the Egyptian Academy of Scientific Research and Technology grants a 10,000 Egyptian pound distinction award carrying his name yearly since 1989.
He died on 6 March 2021.
See also
Faculty of Medicine Ain Shams University
Pediatric department- Faculty of Medicine- Ain Shams University
References
External links
World Allergy Organization
http://www.mohp.gov.eg/default.aspx
2021 deaths
Egyptian pediatricians
Egyptian immunologists
Academic staff of Ain Shams University
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ArcticNet. ArcticNet is a Network of Centres of Excellence of Canada. Its objective is to study the impacts of climate change and modernization in the coastal Canadian Arctic.
ArcticNet was founded in December 2003. ArcticNet also manages the Arctic Inspiration Prize on a voluntary basis.
The governance structure includes a board of directors who oversee two divisions: (1) the science programme, led by an Inuit Advisory Committee and a Territorial Advisory Committee, to whom the Scientific Director reports, and (2) the network administration overseen by an Executive Director.
Past board members include Sheila Watt-Cloutier. Former President of the Inuit Circumpolar Council. Current board members include Professor Jackie Dawson and Cedar Swan CEO of Adventure Canada.
ArcticNet Scientific Publications
Since the beginning of its activities in 2003, ArcticNet researchers have published more than 1,000 peer-reviewed scientific publications and 2,300 other publications. The total contributions of ArcticNet researchers – presentations, publications and other communications exceeds 3,700.
The ArcticNet Publications Database includes publications from the ArcticNet, Canadian Arctic Shelf Exchange Study (CASES) and International North Water Polynya Study (NOW) research projects. It provides complete coverage of more than 2,400 peer-reviewed publications and partial coverage of over 800 other publications.
Core research program
In addition to field work undertaken in northern communities, ArcticNet researchers use the Canadian Coast Guard research icebreaker CCGS Amundsen to access the coastal Arctic.
Education and training
From the very beginning, ArcticNet has been implementing a comprehensive training strategy to recruit and train new generations of researchers and technicians, critical for documenting and studying the transformation of the Canadian North.
Over 600 students and postdoctoral fellows have completed or are completing their training within the unique and international context of ArcticNet.
Schools on Board
Schools on Board is an outreach program initiated in the first year of ArcticNet. It bridges the gap between Arctic science taught in the classroom and research conducted in the field. The main activity of Schools on Board is the field trip 'on board' the CCGS Amundsen where students and teachers have the unique opportunity to participate in an educational experience fully integrated into the research activities of the ArcticNet teams. In 2013, building on the success of Schools on Board, a pilot program called Schools on Tundra was launched, with its first field trip hosted at the Churchill Northern Studies Centre (CNSC) in Churchill, Manitoba, Canada.
Meetings
ArcticNet organizes regular meetings, conferences and workshops. Network members gather once a year at the ArcticNet Annual Scientific Meeting (ASM).
See also
Climate change
References
External links
Arctic Inspiration Prize
CCGS Amundsen
Climate change in Canada
Northern Canada
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Jago Cooper. Jago Cooper (born 1 June 1977) is a British archaeologist. He is the Executive Director of the Sainsbury Centre and professor of Art and Archaeology at the University of East Anglia. Formerly, he was Curator of the Americas at the British Museum whose career has focused on the archaeology of South America and the Caribbean, in particular the historic effects of climate change on island communities. Since 2011 he has written and presented a series of programmes for BBC Four, including Lost Kingdoms of South America, Lost Kingdoms of Central America, Easter Island: Mysteries of a Lost World, Masters Of The Pacific Coast: The Tribes Of The American Northwest, and The Inca: Masters of the Clouds. He has also published books on world art and archaeology including,
Biography
Cooper attended Bryanston School in Dorset, and University College London (UCL) where he was awarded BA, MA and PhD qualifications in archaeology. After periods on the teaching staff at the University of Leicester and UCL, Cooper joined the British Museum's Department of Africa, Oceania and the Americas in 2012.
Cooper's archaeological work has focused on the pre-Columbian archaeology of the Americas, including major projects at El Chorro de Maíta and Los Buchillones in Cuba. He specialises in studying the historic effects of climate change in Caribbean island societies, most recently through examination of the cavescapes of Isla de Mona off Puerto Rico. In 2012 he released the book Surviving Sudden Environmental Change: Answers from Archaeology with Payson D. Sheets which was described as being one of the "outstanding examples of 'thinking big'. . . carefully researched, interdisciplinary, focused and informative" by Erika Guttmann-Bond in the Antiquity Journal.
In 2009 Cooper co-presented the Channel 4 series Man on Earth with Tony Robinson and Joy Singarayer, and in 2011 wrote and presented the series Lost Kingdoms of South America for BBC Four, including four episodes exploring the Chachapoya people, the city of Tiwanaku, the legend of El Dorado and the Kingdom of Chimor. A second series aired in September 2014 entitled Lost Kingdoms of Central America focusing on the Olmec, Chiriquí (Ngäbe) and Taíno people and the ancient Mexican city of Teotihuacan. In 2013 he filmed a one off-special for BBC 4 entitled Easter Island: Mysteries of a Lost World which re-examined the historic collapse in Rapa Nui society. January 2015 saw the broadcast of the two part series The Inca: Masters of the Clouds, also on BBC 4.
Curated exhibitions
Peru: A Journey in Time. 11 November 2021 - 20 February 2022, British Museum - Marking Peru's bicentennial year of independence, this exhibition highlighted the history, beliefs and cultural achievements of the different peoples who lived here from around 2500 BC to the arrival of Europeans in the 1500s, and their legacy in the centuries that followed.
Arctic: Culture and Climate. 22 October 2020 - 21 February 2021, British Museum - "Developed in collaboration with Arctic communities, the exhibition celebrated the ingenuity and resilience of Arctic Peoples throughout history. It told the powerful story of respectful relationships with icy worlds and how Arctic Peoples have harnessed the weather and climate to thrive."
Where the Thunderbird Lives: Cultural Resilience on the Northwest Coast of North America. 23 February - 27 August 2017, British Museum - "Where the Thunderbird lives celebrated the cultural resilience of First Nation communities on the Northwest Coast of North America. The exhibition aimed to bring the story of communities with more than 10,000 years of cultural continuity to an international audience at the British Museum."
Books
Cooper, J. & Sheets, P. (eds). 2012 Surviving Sudden Environmental Change: Answers from Archaeology. University of Colorado Press, Boulder.
Lincoln, A, Cooper, J. & Loovers, J. P. L. 2020 Arctic: Culture and Climate. Thames & Hudson [ISBN 978-05004-80663]
Sunnucks, L. O. & Cooper, J. 2021 Mapping a New Museum. Routledge [ISBN 978-10004-12512]
Pardo, C. & Cooper, J. (eds). 2021 Peru: a journey in time. British Museum Press, London, UK [ISBN 978-07141-24919]
References
External links
British Museum – Jago Cooper
Jago Cooper, British Museum at Academia.edu
Alumni of the UCL Institute of Archaeology
Employees of the British Museum
English archaeologists
Living people
1977 births
People educated at Bryanston School
Pacific archaeology
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Évariste Sanchez-Palencia. Évariste Sanchez-Palencia (born 1941 in Madrid), is a French researcher in theoretical mechanics, applied mathematics and epistemology, Emeritus Research Director at the CNRS. He is a member of the French Academy of Sciences since 12 November 2001. He is also a member of the board of the union rationalist.
Distinction and prizes
1981, CNRS Silver Medal (Physics for Engineers)
1987, Elected Corresponding Member of the French Academy of Sciences (Division of Mechanical Sciences).
1995, Award French Institute of Petroleum, awarded by the French Academy of Sciences.
2001, elected Full Member of the French Academy of Sciences.
Bibliography
In mechanics and mathematics
Non homogeneous media and vibration theory, "Lecture notes in Physics" 127, Springer, Berlin, 398 pages, 1980; translated in Russian, MIR 1984.”
with D. Leguillon, Computation of singular solutions in elliptic problems and elasticity, Éditions Masson - John Wiley, Paris - New York, 200 pages, 1987
with J. Sanchez-Hubert, Vibration and coupling of continuous systems. Asymptotic methods, Springer, Berlin, 421 pages, 1989
with J. Sanchez-Hubert, Introduction aux méthodes asymptotiques et à l'homogénéisation. Application à la Mécanique des milieux continus, Éditions Masson, Paris (pour la Maîtrise, dirigée par P. G. Paris (1992), 266 pages
with Sanchez-Hubert, Coques élastiques minces: Propriétés asymptotiques, Éditions Masson, Paris,. (1997), 376 pages.
with O. Millet and F. Béchet Singular problems in shell theory. Computing and asymptotics, Springer, Berlin, Heidelberg, 265 pages (2010)
In epistemology and history of sciences
Dialectic walk in the sciences, KDP, August 2023, , 454 pages: translated from the original in French Promenade dialectique dans les sciences, Hermann 2012. (); translated in Spanish, Ed.Univ.Cantabria 2015; translated in Italian, UNICOPLI 2018.
Several contributions in Science et culture. Repéres pour une culture scientifique commune Edited by J. Haissinski and H. Langevin-Joliot, Apogée/Espace des sciences, Rennes (2015)
In epistemology and dynamical systems
Dialectique dans les sciences et systèmes dynamiques, with Jean-Pierre Françoise, Le Temps des Cerises (publishers), Essais Scientifiques, 240 pages, January 2023, .
Main research topics
(1970-1985) Homogenization method for continuous media with fine structure.
(1985-2010) Asymptotic study and numerical computation of very thin elastic shells.
(From 2005) epistemology, along the axes:
-Essentially approximate nature and evolution of scientific knowledge.
-Dynamical systems theory provides an intelligible basis to dialectic movement of nature (dynamic interaction, constructive aspects of evolution, etc.)
References
in l'académie des sciences
Footnotes
Members of the French Academy of Sciences
20th-century French mathematicians
Research directors of the French National Centre for Scientific Research
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