| Eric Alm |
Computational and experimental
approaches to understanding the evolution
of gene regulatory networks in environmental microorganisms. |
| Mark Bathe |
Integration of high resolution
light and electron microscopy data with mechanistic
models of cytoskeletal function. |
| Angela
Belcher |
Biomaterials, biomolecular
materials and organic-inorganic interrfaces |
| Ed Boyden |
Neurotechnology, neural circuit analysis and engineering, novel
neurological disease treatments, optical and molecular tools for neuroscience |
| Chris
Burge |
Mechanisms of gene regulation |
| Arup
Chakraborty |
Computational modeling of biological
and physiological processes |
| Peter Dedon |
Biological chemistry of RNA modifications; chemical and biological mechanisms linking inflammation and human disease; chemical biology of DNA, RNA, protein and lipid damage caused by drugs, ionizing radiation, microbes and endogenous chemicals; bioanalytical chemistry and biological mass spectrometry |
| Edward F. DeLong |
Environmental genomics, microbial
diversity, photobiology, integrating microbial systems biology
with systems ecology |
| C. Forbes Dewey,
Jr. |
Cell, tissue, and fluid biomechanics,
biological imaging |
| Bevin P.
Engelward |
DNA damage induced loss of genomic
integrity |
| John M.
Essigmann |
Molecular mechanisms of carcinogenesis,
mechanism based drug design |
| Ernest Fraenkel |
Computational biology, systems
biology, transcriptional regulation |
| James G. Fox |
Animal models for disease |
| Linda G.
Griffith |
Tissue engineering |
| Alan J.
Grodzinsky |
Tissue engineering; biology and biophysics of extracellular matrix; cell and molecular nanomechanics |
| Kimberly Hamad-Schifferli |
Bioengineering, manufacturing, manipulation
of biologiical molecules, chemistry, nanotechnology, materials science |
| Jongyoon Han |
Micro/nanofabrication |
| Darrell J.
Irvine |
Immune system bioengineering, cell
and tissue engineering, biomaterials |
| Alan P. Jasanoff |
Molecular imaging in neurobiology, functional
MRI, systems neuroscience |
| Roger D. Kamm |
Cell, tissue, and fluid biomechanics |
| Alexander
M. Klibanov |
Enzyme biotechnology, therapeutic
proteins |
| Natalie Kuldell
|
Gene regulation, synthetic biology |
| Matthew Lang |
Biological imaging and functional
measurement, macromolecular biochemistry & biophysics, molecular,
cell and tissue biomechanics |
| Robert Langer |
Biomaterials, tissue engineering |
Douglas A. Lauffenburger
Head |
Cell, tissue and biomolecular engineering,
computational modeling of biological and physiological systems |
| Harvey F. Lodish |
Cytokine- and cell-based therapeutic
biotechnology |
| Scott Manalis |
Molecular, cell and tissue biomechanics,
biological imaging and functional measurement, new tools for
genomics, functional genomics, proteomics and glycomics |
| Jacquin Niles |
Development of new molecular tools aimed at facilitating investigation of human pathogens |
| Leona D. Samson |
Cellular responses to damaging agents,
the repair of alkylation damage and its influence on alkylation
induced cell death, apoptosis, mutation, chromosome damage and
cancer |
| Ram Sasisekharan |
Glycotechnology and therapeutics |
| Peter So |
Biomedical optics, micromanipulation
and fabrication, molecular, cell and tissue biomechanics, non-invasive
optical biopsy |
| Peter Sorger |
Systems biology of tumor progression and treatment,
quantitative analysis of chromosome segregation and cell division |
| Steven
R. Tannenbaum |
Nitric oxide, metabolism and toxicology
of drug development, mass spectrometry and proteomics |
| William G.
Thilly |
Origins of genetic change in humans |
| Bruce Tidor |
Computational biology and bioengineering, molecular
biophysics, rational drug design, biochemical networks
and signal transduction, systems biology |
| Krystyn J. Van Vliet |
|
| Ron Weiss |
Synthetic biology. Construction and analysis of synthetic gene networks. |
| Forest White |
Proteomics, protein phosphorylation
analysis, mass spectrometry |
| Pete Wishnok |
Bioanalytical techniques and instrumentation |
| K. Dane Wittrup |
Molecular bioengineering, protein
engineering, therapeutic protein biotechnology |
| Gerald N. Wogan |
Effects of environmental toxins
on human physiology |
| Michael Yaffe |
Regulation of protein-protein interactions,
structure and function of modular signaling domains, design of
bioinformatics tools for proteomic analysis |
| Mehmet Fatih Yanik |
Biological Imaging and Functional Measurement; New Tools for Genomics, Functional Genomics, Proteomics and Glycomics; Discovery and Delivery of Molecular Therapeutics |
| Ioannis Yannas |
Tissue engineering |
