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Thomas Hunt Morgan was an American evolutionary biologist, geneticist, embryologist, and science author who won the Nobel Prize in Physiology or Medicine in 1933 for discoveries elucidating the role that the chromosome plays in heredity.
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Arthur Barclay Chapman was the University of Wisconsin–Madison's "most accomplished animal genetic researcher."
David William Fulker was a British behavioural geneticist at the University of Colorado's Institute for Behavioral Genetics. Among positions of esteem, he was elected president of the Behavior Genetics Association (1982), and was executive editor of the society's journal Behavior Genetics. In honour of this role, the society maintains an annual Fulker Award, for the best paper in the journal each year, and for which the award is "$1000 and a decent bottle of wine".
Behavioural genetics, also referred to as behaviour genetics, is a field of scientific research that uses genetic methods to investigate the nature and origins of individual differences in behaviour. While the name "behavioural genetics" connotes a focus on genetic influences, the field broadly investigates the extent to which genetic and environmental factors influence individual differences, using research designs that allow removal of the confounding of genes and environment. Behavioural genetics was founded as a scientific discipline by Francis Galton in the late 19th century, only to be discredited through association with eugenics movements before and during World War II. In the latter half of the 20th century, the field saw renewed prominence with research on inheritance of behaviour and mental illness in humans, as well as research on genetically informative model organisms through selective breeding and crosses. In the late 20th and early 21st centuries, technological advances in molecular genetics made it possible to measure and modify the genome directly. This led to major advances in model organism research and in human studies, leading to new scientific discoveries.
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John M. Opitz is a German-American medical geneticist and professor at the University of Utah School of Medicine. He is best known for rediscovering the concept of the developmental field in humans and for his detection and delineation of many genetic syndromes, several now known as the "Opitz syndromes" including Smith–Lemli–Opitz syndrome (SLOS), Opitz–Kaveggia syndrome (FGS1), Opitz G/BBB syndrome, Bohring–Opitz syndrome, and other autosomal and X-linked conditions. He is founder of the Wisconsin Clinical Genetics Center, the American Journal of Medical Genetics, and was a cofounder of the American College and American Board of Medical Genetics.
Daniel Voytas, Ph.D., is Professor of Genetics, Cell Biology and Development at the University of Minnesota and Director of the Center for Precision Plant Genomics. He is also the Chief Scientific Officer of Calyxt, an agricultural biotechnology company focused on developing crops that provide consumer benefit.
Madge Thurlow Macklin was an American physician known for her work in the field of medical genetics, efforts to make genetics a part of medical curriculum, and participation in the eugenics movement.
Ruth Geyer Shaw is a professor and principal investigator in the Department of Ecology, Evolution and Behavior at the University of Minnesota. She studies the processes involved in genetic variation, specializing in plant population biology and evolutionary quantitative genetics. Her work is particularly relevant in studying the effects of stressors such as climate instability and population fragmentation on evolutionary change in populations. She has developed and applied new statistical methods for her field and is considered a leading population geneticist.
Daniel Gianola is a geneticist based at the University of Wisconsin-Madison (US), reputed for his contributions in quantitative genetics to the fields of animal and plant breeding. In the early 1980s, Gianola extended best linear unbiased prediction to the non-linear domain for analysis of categorical traits, using the classical threshold model of Sewall Wright. Subsequently, he pioneered the use of Bayesian methodologies and Monte Carlo Markov chain methods in quantitative genetics. He also revived early work by Sewall Wright on structural equation models and cast their application in the context of modern quantitative genetics and statistical methodology. His group in Wisconsin was the first in the world applying non-parametric methods, such as reproducing Kernel Hilbert spaces regression and Bayesian neural networks, to genome-enabled selection in animal breeding, agriculture and whole-genome prediction of complex traits or diseases. Gianola published extensively on thresholds models, Bayesian theory, prediction of complex traits using mixed model methodology, hierarchical Bayesian regression procedures and machine learning techniques. Gianola has been also involved in whole-genome prediction of skin and bladder cancer in humans. He has taught extensively in more than twenty countries including recurrent visiting professorships at the Universidad Politecnica de Valencia (Spain), the Norwegian University of Life Sciences (Norway), Aarhus University (Denmark), Georg-August University (Germany) and the Technical University of Munich (Germany). He has been an Honorary Researcher at the Pasteur Institut de Montevideo since 2016. In an Editorial contained in a volume published in Gianola's honor in the Journal of Animal Breeding and Genetics (2017), it was stated that "He is probably the one lecturer in animal breeding and genetics, who has the biggest impact on the largest number of followers in the numerous classes and courses he has taught with never-ending energy all across the world."
Seth C. Murray is the Eugene Butler Endowed Chair in Agricultural Biotechnology at Texas A&M University where he directs a corn research program focused on quantitative genetics, phenotyping, and new variety development. In 2018 he was elected a fellow of the Crop Science Society of America.
Morris Soller (1931–) is a research professor in the Department of Genetics of the Hebrew University of Jerusalem. He is especially interested in livestock- and crop- genetics including trypanotolerance in cattle.
References
- ↑ "Dr. William D Beavis". Iowa State University. Retrieved 2019-08-08.
- ↑ Xu, Shizhong (2003-12-01). "Theoretical Basis of the Beavis Effect". Genetics. 165 (4): 2259–2268. doi:10.1093/genetics/165.4.2259. ISSN 0016-6731. PMC 1462909 . PMID 14704201.
- ↑ "William D. Beavis CV". Iowa State University. Retrieved 2019-08-08.
