基本信息
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职业迁徙
个人简介
Our laboratory characterizes basic mechanisms underlying the origins and parallel
evolution of neural systems, circuits, and brain signaling mechanisms. The major
questions are: (1) why are individual neurons so different from each other, (2) how
do they maintain such precise connections between each other, (3) how does this
fixed wiring result in such enormous neuronal plasticity, and (4) how does this
contribute to learning and memory mechanisms?
By taking advantage of relatively simpler nervous systems of marine invertebrates,
we combine neuroscience, genomics, bioinformatics, evolutionary theory, zoology,
molecular biology, microanalytical chemistry, and nanoscience to understand how neurons operate, learn
and remember; and how this complexity evolved.
Most of my work is performed on ctenophores, placozoans, and molluscs as critical reference
species for evolutionary studies and fundamental biomedicine. My research program is supported by
grants, including NIH, NSF, Human Frontiers Science Program and private foundation projects.
Honors:
2016 University of Florida Research Professor Awardee
2014 Distinguished Professor, University of Florida College of Medicine
2011 Journal of Neurogenetics, Editorial Board
2000-Present International Society for Invertebrate Neurobiology, Elected Council Member
2007 Faculty Achievement Recognition Honoree & Award
2005/2007/2011 McKnight Brain Research Foundation Awards
2005 NIH Science Award (Nitrite Research)
2002 Packard Interdisciplinary Science Award
2000 NSF Medal, Research in Antarctica
1995-2000 Howard Hughes Medical Institute: International Scholar
1993-1994 Royal Society Postdoctoral Fellow Award, UK
1992 European Training Program in Brain and Behavioral Research (ETP) Research
Award
1989 European Training Program in Brain and Behavioral Research (ETP) Award
evolution of neural systems, circuits, and brain signaling mechanisms. The major
questions are: (1) why are individual neurons so different from each other, (2) how
do they maintain such precise connections between each other, (3) how does this
fixed wiring result in such enormous neuronal plasticity, and (4) how does this
contribute to learning and memory mechanisms?
By taking advantage of relatively simpler nervous systems of marine invertebrates,
we combine neuroscience, genomics, bioinformatics, evolutionary theory, zoology,
molecular biology, microanalytical chemistry, and nanoscience to understand how neurons operate, learn
and remember; and how this complexity evolved.
Most of my work is performed on ctenophores, placozoans, and molluscs as critical reference
species for evolutionary studies and fundamental biomedicine. My research program is supported by
grants, including NIH, NSF, Human Frontiers Science Program and private foundation projects.
Honors:
2016 University of Florida Research Professor Awardee
2014 Distinguished Professor, University of Florida College of Medicine
2011 Journal of Neurogenetics, Editorial Board
2000-Present International Society for Invertebrate Neurobiology, Elected Council Member
2007 Faculty Achievement Recognition Honoree & Award
2005/2007/2011 McKnight Brain Research Foundation Awards
2005 NIH Science Award (Nitrite Research)
2002 Packard Interdisciplinary Science Award
2000 NSF Medal, Research in Antarctica
1995-2000 Howard Hughes Medical Institute: International Scholar
1993-1994 Royal Society Postdoctoral Fellow Award, UK
1992 European Training Program in Brain and Behavioral Research (ETP) Research
Award
1989 European Training Program in Brain and Behavioral Research (ETP) Award
研究兴趣
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Daria Y Romanova, Frédérique Varoqueaux,Michael Eitel,Masa-Aki Yoshida,Mikhail A Nikitin,Leonid L Moroz
Daria Y Romanova,Leonid L Moroz
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