|
| Baker, David |
protein folding; bioinformatics |
| Brockerhoff, Susan |
phototransduction and synaptic transmission in zebrafish; retinal disease |
| Chung, Dominic |
blood coagulation and fibrinolysis |
| Davie, Earl |
blood coagulation and fibrinolysis |
| Davis, Trisha |
chromosome dynamics; spindle pole body; yeast genomics |
| Glomset, John |
protein/lipid interactions; prenylation; cell signalling |
| Gonen, Tamir |
protein structure determination by electron microscopy |
| Hauschka, Stephen |
muscle development, gene regulation, and gene therapy |
| Hol, Wim |
protein crystallography; drug design; genomics; tropical parasites |
| Hurley, James |
photoreceptor signal transduction |
| Kennedy, Brian |
molecular basis of aging; nuclear lamin function; muscular dystrophy |
| Kimelman, David |
Xenopus and zebrafish development |
| Klevit, Rachel |
NMR; protein structure, protein/protein, protein/DNA interactions |
| Loeb, Lawrence |
fidelity of DNA replication; HIV reverse transcriptase; carcinogenesis |
| Maizels, Nancy |
DNA repair and recombination in mammalian cells |
|
membrane docking and fusion; lysosome biogenesis |
|
transcriptional and translational control in mammalian cells |
|
murine neuronal development; zinc metabolism |
|
photosynthesis; protein dynamics |
|
Drosophila as a model for human disease, Stem cells, microRNA |
|
cycling and regeneration of visual pigments |
|
protein crystallography; G-coupled protein receptors |
| Varani, Gabriele |
NMR; RNA/protein interactions and dynamics; telomerase |
| Verlinde, Christophe |
structure-based drug design |
| Weiner, Alan |
chromosome fragility; small nuclear RNAs; CCA-adding enzyme |
| Young, Ted |
transcriptional regulation in yeast
|
 |
|
| Brzovic, Peter |
BRCA1-dependent ubiquitination, NMR |
| Fan, Erkang |
chemical biology, structure-based antibiotic design |
| MacKay, Vivian |
transcriptional and translational control in yeast cells |
| Merritt, Ethan |
protein crystallograhy; structural genomics |
| Muller, Eric |
yeast functional genomics; protein/protein interactions |
|
protein design and scaffolding; HIV vaccine design; antibody specificity |
|
|
| Chamberlain, Jeffrey |
muscular dystrophy; dystrophin structure and function; gene therapy |
| Daggett, Valerie |
molecular dynamics; protein unfolding/folding |
| Dale-Crunk, Beverly |
epithelial structural proteins, antimicrobial peptides |
| Daum, Guenter |
cell signalling; smooth muscle development; EGF-like growth factors |
| Eyre, David |
skeletal tissue biology |
| Gelb, Michael |
lipid mediator production and inflammation, design of anti-parasite agents, proteomic methodology |
| Lopez, Jose |
platelet adhesion, von Willebrand factor, vessel inflammation and
occlusion |
| Russell, David |
gene therapy, viral vectors |
|
|
| Bornstein, Paul |
cell/extracellular matrix interactions; wound healing |
| Fischer, Edmond |
signal transduction; regulation by protein phosphorylation |
| Gordon, Milton |
plant/bacterial interactions; plant signalling; bioremediation |
| Krebs, Edwin |
signal transduction; regulation by protein phosphorylation |
| Neurath, Hans |
Founding Chair |
|
protein chemistry; steroid/protein interaction |
| Teller, David |
protein crystallography; G-coupled protein receptors |
| Walsh, Kenneth |
mass spectrometry/phosphoproteins |
|
Affiliate Faculty
Fred Hutchinson Cancer Research Center
(not available for thesis research) |
| Bedalov, Antonio |
chemical genetics, chromatin structure, anticancer drugs |
| Biggins, Sue |
chromosome segregation in budding yeast |
| Bradley, Philip |
structural modeling of protein-DNA and protein-peptide interaction
specificity |
| Cooper, Jonathan |
signal transduction pathways |
| Eisenman, Robert |
transcriptional control by the myc/max/mad network |
| Ferre-D'Amare, Adrian |
RNA and protein crystallography; RNA/protein interactions |
| Hahn, Steven |
transcription regulatory mechanisms |
| Roberts, James |
cell cycle control; cyclins; protein degradation |
| Roth, Mark |
chromosome dynamics; SR proteins; anoxia in zebrafish |
| Stoddard, Barry |
protein crystallography; reaction intermediates; homing endonucleases |
| Strong, Roland |
protein crystallography; molecular recognition in the innate immune system responses |
| Tsukiyama, Toshio |
chromatin remodeling in transcription and meiosis |
Affiliate Faculty
Institute for Systems Biology (ISB)
(not available for thesis research) |
| Aitchison, John |
yeast cell biology, nucleocytoplasmic transport, peroxisomal assembly and function |
| Ranish, Jeff |
mass spectrometry, proteomics, protein complexes, and transcription |
Affiliate Faculty
Biotechnology and Pharmaceuticals |
| Bruce Carter, Chief Execultive Officer, ZymoGenetics, Seattle, Washington |
| Bennett Shapiro, PureTech Ventures, Boston, Massachusetts |
Affiliate Faculty
WWAMI area universities
(Washington, Wyoming, Alaska, Montana, and Idaho) |
Ronald Brosemer,
Washington State University |
neurotransmitters |
Douglas Cole,
University of Idaho |
flagellar assembly in Chlamydomonas |
Valerie Copie,
Montana State University |
protein NMR |
Rod Croteau,
Washington State University |
biochemistry of terpenes |
Gary Daughdrill,
University of Idaho |
protein flexibility and function |
Edward Dratz,
Montana State University |
rhodopsin and cell signalling |
Elizabeth Fortunato,
University of Idaho |
human cytomegalovirus, reproductive toxicology |
Linda Hyman,
Montana State University
|
yeast genetics and RNA processing |
Larry Jackson,
Montana State University |
biochemistry of insect pheromones |
Jocelyn Krebs,
University of Alaska |
eukaryotic chromatin structure |
Pamela Langer,
University of Wyoming |
spider silk recycling |
Randolph Lewis,
University of Wyoming |
spider silk proteins |
Stephen Lodmell,
University of Montana |
RNA-RNA and RNA-protein interactions |
Michele McGuirl,
University of Montana |
metalloproteins and metal homeostasis |
Kurt Miller,
University of Wyoming |
membrane proteins, antimicrobial peptides |
Julia Oxford,
Boise State University |
mammalian extracellular matrix |
Martin Pall,
Washington State University |
biochemistry of chronic fatigue syndrome |
Mark Stayton,
University of Wyoming |
signal transduction in plants, heat stable enzymes |
Martin Teintze,
Montana State University |
crystallography, HIV vaccines |
Holly Wichman,
University of Idaho |
L1 elements and mammalian retroposons |
Ralph Yount,
Washington State University |
molecular mechanism of muscle contraction |
Box 357350