David Eisenberg

American biochemist and biophysicist (born 1939) From Wikipedia, the free encyclopedia

David S. Eisenberg (born 15 March 1939[citation needed]) is an American biochemist and biophysicist best known for his contributions to structural biology and computational molecular biology. He has been a professor at the University of California, Los Angeles since the early 1970s and was director of the UCLA-DOE Institute for Genomics & Proteomics, as well as a member of the California NanoSystems Institute (CNSI) at UCLA.[9][10][11][12][13][14]

Born (1939-03-15) March 15, 1939 (age 87)
Chicago, Illinois, US
AlmamaterHarvard University (undergraduate)
The Queen's College, Oxford (postgraduate)
Quick facts Born, Alma mater ...
David Eisenberg
David Eisenberg
Born (1939-03-15) March 15, 1939 (age 87)
Chicago, Illinois, US
Alma materHarvard University (undergraduate)
The Queen's College, Oxford (postgraduate)
AwardsHarvey Prize (2008)
ISCB Senior Scientist Award (2013)[1]
Scientific career
FieldsProteins[2]
Amyloid[3]
Structural biology[4][5][6]
InstitutionsHoward Hughes Medical Institute
University of Oxford
University of California, Los Angeles
Harvard University
California Institute of Technology
Princeton University
ThesisSome problems in the electronic structure of molecules (1965)
Charles Coulson[citation needed]
Notable students
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Education

Eisenberg attended Harvard College and graduated in 1961 with an A.B. in Biochemical Sciences. He went on to the University of Oxford, where he was awarded a D.Phil in 1965[15] for research supervised by Charles Coulson.

Research

Eisenberg's current research focuses on the structural biology of amyloidogenic proteins, while his computational efforts largely center on the development of bioinformatic/proteomic methodologies for elucidation and analysis of protein interaction networks. His research group hosts the Database of Interacting Proteins.[16]

Career

Awards

He was the recipient of Harvey Prize (Human Health) 2008 in recognition of his contributions in unfolding the structure of amyloid fibrils. The award was presented to him at a ceremony that took place on March 23, 2009 at the Technion. This recently recognized protein state provides opportunities to understand cells in health and disease.[17]

References

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