Charles Craik, PhD

Charles Craik
Global Health Sciences Faculty Affiliate

Phone: 415/476-8146
UCSF Box:
Email: [email protected]
UCSF Profile

Project
Sponsor Location(s) Topics Start End
Targeting Allosteric Sites to Modulate Protein Interactions and Function NIH National Institute of Allergy and Infectious Disease United States Drug and Diagnostics Development
Research Training in Chemistry and Chemical Biology NIH National Institute of General Medical Sciences United States Residencies, Fellowships, and Postdoctoral Training
Research Training in Chemistry and Chemical Biology NIH National Institute of General Medical Sciences United States Residencies, Fellowships, and Postdoctoral Training
Research Training in Chemistry and Chemical Biology NIH National Institute of General Medical Sciences United States Training and Capacity Building, Residencies, Fellowships, and Postdoctoral Training
Research Training in Chemistry and Chemical Biology NIH National Institute of General Medical Sciences United States Training and Capacity Building, Residencies, Fellowships, and Postdoctoral Training
NSF Bay Area Regional I-Node Program University of California Berkeley United States Training and Capacity Building, Residencies, Fellowships, and Postdoctoral Training
Non-Invasive Differentiation of Benign Lesions from Aggressive Pancreatic Cancer NIH National Cancer Institute United States Cancer/Oncology
In vivo diagnostics for cardiovascular disease UC Office of the President United States Cardiovascular Disease
Identification of Cobra-specific antibodies United States Zoonosis, Emerging Disease, and Drug Resistance, Immunology
I-Corps EAGER: UC Biomedical Research Acceleration, Integration, and Development (UC BRAID/CAI) I-Corps Hub Proposal University of California Los Angeles (UCLA) United States Residencies, Fellowships, and Postdoctoral Training, UCSF Professional Education
Extracellular Proteolysis as a Molecular Stratification Tool for Cancer NIH National Cancer Institute United States Cancer/Oncology
Allosteric Inhibition of a Family of Proteolytic Enzymes NIH National Institute of General Medical Sciences United States Immunology, Pharmacology and Drug Treatment
A Technological Platform for the Identification of Serine Proteases in Cancer NIH National Cancer Institute United States Cancer/Oncology, Drug and Diagnostics Development
A Technological Platform for the Identification of Serine Proteases in Cancer NIH National Cancer Institute United States Cancer/Oncology, Drug and Diagnostics Development