Qais D. Al-Awqati, M.B., Ch.B., qa1@columbia.edu
Epithelial differentiation and protein targeting; molecular mechanism of organogenesis of the kidney.

Jahar Bhattacharya, M.D., Ph.D., jb39@columbia.edu
Endothelial mechanisms of lung injury using cultured cells and the optically imaged lung.

Martin Blank, Ph.D., mb32@columbia.edu
Electromagnetic field effects on membrane enzymes and on the cellular stress response.

Jane Dodd, Ph.D., jd18@columbia.edu
Neuronal differentiation and axonal patterning in the developing vertebrate central nervous system.

Michel Ferin, M.D., mf8@columbia.edu
Neuroendocrine control of the reproductive cycle; central mechanisms whereby stress interferes with reproduction.

Jorge Fischbarg, M.D., Ph.D., jb20@columbia.edu
Molecular biophysics of cell membrane transporters and water channels; volume regulation.

Claude P.J. Ghez, M.D., cpg1@columbia.edu
Neural control of multi-joint limb movement in the cat and in humans.

Joseph Gogos, M.D., Ph.D., jag90@columbia.edu
Assembly and maintenance of sensory maps in the brain; animal models for genes predisposing to psychiatric disorders.

Jonathan A. Javitch, M.D., Ph.D., jaj2@columbia.edu
Structure, function, and regulation of G protein-coupled receptors and neurotransmitter transporters.

Eric R. Kandel, M.D., erk5@columbia.edu
Cellular and molecular mechanisms of associative and non-associative learning.

Arthur Karlin, Ph.D., ak12@columbia.edu
The function of receptors in terms of molecular structures.

John D. Loike, Ph.D., jdl5@columbia.edu
Regulation of leukocyte chemotaxis through physiological and pathological matrices.

Martin Low, Ph.D., mgl2@columbia.edu
Cellular function of the glycosylphosphatidylinositol (GPI) anchor.

Amy MacDermott, Ph.D., abm1@columbia.edu
Regulation of synaptic transmission in the superficial dorsal horn.

Andrew R. Marks, M.D., arm42@columbia.edu
Molecular mechanisms regulating contraction of normal and failing cardiac muscle, molecular triggers for cardiac arrhymias, and coronary artery restenosis following stent placement.

Brian McCabe, Ph.D., bm2157@columbia.edu
Neural differential and development.

Ken D. Miller, Ph.D., kdm2103@columbia.edu
Theory and modeling of the function, circuitry, and development of the cerebral cortex and the thalamus.

Ning Qian, Ph.D., ng6@columbia.edu
Computational modeling of visual information processing; visual psychophysics of perceptual learning.

James E. Rothman, Ph.D., jr2269@columbia.edu
Elucidating the underlying mechanisms of transport within cells.

David Schachter, M.D., ds12@columbia.edu
Dynamic regulation of the properties of the wall of the aorta; epithelial and smooth muscle interactions.

Peter Scheiffele, Ph.D., ps2018@columbia.edu
Molecular mechanisms of synapse formation.

James H. Schwartz, M.D., Ph.D., jhs6@columbia.edu
Cellular and molecular mechanisms of learning.

Samuel C. Silverstein, M.D., scs3@columbia.edu
Structure and functions of polymorphonuclear (PMN), mononuclear phagocytes, lymphocytes, platelets and endothelial cells (EC) in innate immunity and diseases.

Ira Tabas, M.D., Ph.D., iat1@columbia.edu
The cellular and molecular biology of macrophages during atherogenesis.

Alan R. Tall, M.D., art1@columbia.edu
Molecular mechanisms responsible for human diseases.

Ming Zhou, Ph.D., mz2140@columbia.edu
Molecular physiology and biophysics of potassium channel modulations.