Faculty Profiles
Faculty
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Icahn Laboratory - 144
The organization of cellular stress response networks and repair mechanisms -
Thomas Laboratory - 329
Cell-to-Cell Communication in Bacteria -
PNI - A54
Neural computation in the retina -
PNI - 155
Quantitative approaches to systems neuroscience -
Moffett Laboratory - 433
Left-right patterning in the vertebrate embryo -
Thomas Laboratory - 210
Virology meets Proteomics: Cellular Host Defense versus Virus Immune Evasion -
Thomas Laboratory - 247
The cell biology of tissue polarity and epithelial patterning -
Guyot Hall - A5
Small-molecule-mediated interactions in complex microbial communities -
Schultz Laboratory - 314
Neurovirology -
Thomas Laboratory - 234
Modulation of host cell processes by adenoviral gene products -
Schultz Laboratory - 416
RNA localization and translational regulation during development in Drosophila -
Thomas Laboratory - 355
Bacterial cell biology: fundamentals of cytoskeletal dynamics, polarity, and mitosis -
Schultz Laboratory - 215
Structural cell biology -
Thomas Laboratory - 303
Systems and Synthetic Biology of Photosynthetic Organisms -
Thomas Laboratory - 255
Molecular mechanisms of cancer metastasis -
Schultz Laboratory - 216
Structural biology and mechanisms of signal transduction in stress and immune responses -
Icahn Laboratory - 140
How noncoding regions of the genome function to control the differential patterns of gene expression, both spatial and temporal, that define cell behavior -
Guyot Hall - 8
The developmental basis of phenotypic diversity -
Icahn Laboratory - 148
Molecular mechanisms of aging -
PNI - 252
Neural Mechanisms Underlying Social Communication in Flies -
Thomas Laboratory - 219
Genetic, epigenetic, and environmental interactions with child development and health -
Schultz Laboratory - 415
Molecular architecture and function of the microtubule cytoskeleton -
Thomas Laboratory - 110
Tissue engineering, human infections and diseases -
Thomas Laboratory
Quantitative approaches for understanding mammalian preimplantation embryo formation -
Guyot Hall - 4
Control of gene expression and early development in Drosophila melanogaster -
Schultz Laboratory - 315
Extracellular matrix regulation of cell functions -
Thomas Laboratory - 203
Human cytomegalovirus replication and pathogenesis -
Thomas Laboratory - 310
Protein targeting and signal transduction -
Thomas Laboratory - 253
Membrane receptors and signal transduction -
PNI - 157
Measurement and analysis of neural circuit dynamics -
Icahn Laboratory - 240
Mammalian developmental biology and science policy -
Thomas Laboratory - 140
Understanding and controlling complex cell behaviors -
PNI - A55
Information processing and learning in mammalian brains -
Moffett Laboratory - 435
Embryonic development of Drosophila melanogaster -
Icahn Laboratory - 243
Biological modeling; intracellular networks; molecular biophysics -
Icahn Laboratory - 246
Develop and employ quantitative proteomics methods to obtain a systems level understanding of cellular organization -
Thomas Laboratory - 148
Structural and chemical basis for membrane transport and lipid metabolism -
Thomas Laboratory - 103A
DNA replication and chromosome structure in yeast; telomeres; replication fork progression
Associated Faculty
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Icahn Laboratory - 144
Population genetics and genomics -
Hoyt Chemical Laboratory - 101
Metabolic engineering, organelle engineering, synthetic biology, structural biology, and protein engineering -
PNI - A52
Immune proteins in the formation, function, and modification of neuronal connectivity -
Hoyt Chemical Laboratory - 301
Biophysical approaches to understanding growth of RNA/protein assemblies, cells, and tissues -
Hoyt Chemical Laboratory - 205
Bacterial persistence and host-pathogen interactions -
Jadwin Hall - 120
Quantitative approaches to systems and developmental biology -
Frick Chemistry Laboratory - 359
Chemistry of cellular RNA -
Hoyt Chemical Laboratory - 207
Protein engineering and chemical biology -
Guyot Hall - M151
Genes and Neural Circuits Underlying Behavioral Evolution -
Frick Chemistry Laboratory - 325
Investigating the physiochemical basis of protein function in complex systems of biomedical interest with new chemical biology technologies -
Hoyt Chemical Laboratory - 303
Development of three-dimensional tissues -
Icahn Laboratory - 241
Towards a holistic understanding of cellular metabolism -
Frick Chemistry Laboratory - 333
Discovery of new small molecules and biosynthetic pathways involved in microbial symbiotic interactions; elucidation of enzyme-catalyzed reaction mechanisms -
Icahn Laboratory - 244
Cellular and molecular biophysics; shape, mechanics and motility -
Icahn Laboratory - 248
Dynamics of living tissues -
Computer Science Building - 420
Computational molecular biology -
Engineering Quadrangle - D326
Fluid dynamics of "complex fluids" -
Icahn Laboratory
Quantitative and functional genomics -
Computer Science Building - 320
Bioinformatics and genomics -
Moffett Laboratory - 328
Genomics of hybrid zones and ecological epigenetics
Teaching Faculty
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Schultz Laboratory - 316
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Thomas Laboratory - 304
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Schultz Laboratory - 102
Emeritus Faculty
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Molecular Genetics in the Post-Genome-Sequence Era -
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PNI
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Cell biology and genetics in Saccharomyces cerevisiae -
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Moffett Laboratory - 428
Genetic and molecular analysis of oogenesis in Drosophila melanogaster -
