Computational and preclinical analyses of mouse models of prostate and bladder cancer
Faculty - PhD Program
Data mining of large biological datasets - cancer research
Central and peripheral organization of the olfactory system
Tumor suppression and genome instability in breast cancer
Dynamics and functions of microtubules during myogenic differentiation and cell cycle progression
Study of gene regulatory and signaling networks in mammalian cellular contexts using computational methods.
Developmental genetics of identified nerve cells in C. elegans.
Pre-mRNA splicing in cultured mammalian cells.
Development of in vivo selection strategies for evolving proteins with novel catalytic properties
Genetics of kidney development in the mouse; cellular and genetic basis of epithelial branching morphogenesis
Molecular genetics of cancer; molecular pathogenesis of lymphoma and leukemia
Bacterial models for biological shape and pattern formation
Single molecule mechanics and engineering.
Cellular mechanisms of signal transduction and olfaction.
Cryo-electron microscopy and single-particle reconstruction , studying the mechanism of protein biosynthesis and other molecular processes in the cell.
DNA replication, DNA repair and the DNA damage response in the maintenance of genomic integrity
Retroviral replication; tyrosine kinase oncogenes
Mechanistic studies of protein synthesis by the ribosome using single-molecule fluorescence microscopy and other biophysical and biochemical approaches
Molecular mechanisms of DNA recombination and repair; single molecule fluorescence microscopy and other biochemical approaches.
Mechanisms of neuronal differentiation and degeneration and their regulation by external growth factors
Cell-cell interactions, signal transduction, and cell fate specification in C. elegans http://greenwaldlab.org/
Molecular basis of nervous system development and function in Drosophila
Department of Biological Sciences
500 Fairchild Center
Mail Code 2401
1212 Amsterdam Avenue
New York, NY 10027