20 People Results for the Tag: Glutamic Acid
Associate Professor of Plant Pathology & Environmental Microbiology
Genetics, molecular biology and physiology of plant interactions with phytopathogenic bacteria. Signal transduction events involved in plant disease resistance. Genetic control of plant hypersensitive cell death.
Professor and Verne M. Willaman Dean, Eberly College of Science; Chair of the Genetics Program
Regulation of protein synthesis and control of translation initiation of mRNAs in higher eukaryotes and the evolution of tissue specific transcriptional regulation.
Assistant Professor of Biomedical Engineering
Design of bio-inspired functional materials that serve as new tools in precision medicine. Understanding how peptides and proteins assemble at natural and non-natural interfaces to form organized structures with unique biochemical functions. The design of nano- and micro-scale biomaterials to develop new biosensing and therapeutic strategies to treat infectious disease, inflammation and cancer.
Jean Phillips Shibley Professor and Department Head of Biobehavioral Health
Using genetic, pharmacological, behavioral, and molecular biological techniques to study the neurobiology of learning and memory and the effects of addiction on it.
Director, X-Ray Crystallography and Automated Biological Calorimetry Core Facilities
Biological calorimetry, protein characterization, molecular modeling, X-ray crystallography, and small-angle X-ray scattering.
Assistant Research Professor
investigation of peptidergic transmission throughout the brain, using cell-specific and pathway-specific manipulations to understand how peptides alter neuronal signaling and behavior, particularly in the context of stress and drug use.
Assistant Professor of of Biochemistry and Molecular Biology
The mechanisms and functions of ATP-dependent chromatin remodeling complexes and their place in gene regulation.
Center for Infectious Disease Dynamics
Huck Chair of Metabolic Physiology; Associate Professor of Nutritional Sciences
Utilizing rodent models to discover novel neural substrates that control fundamental homeostatic and reward controls of food intake, and their failures in the case of obesity and infection-induced anorexia; How food and feeding behavior affect neural circuits controlling sociability and emotionality.