40 People Results for the Tag: Anti Bacterial Agents

All A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

Kevin Hockett

Huck Early Career Chair; Assistant Professor of Microbial Ecology
Biological Control, Biology and Ecology of Plant-Microbe and Plant-Environment Interactions, Microbial Ecology and Population Biology Faculty

Center for Infectious Disease Dynamics

Kenneth Keiler

Professor of Biochemistry and Molecular Biology
Small RNAs and protein localization in bacterial development and antimicrobial drug discovery.

Girish Kirimanjeswara

Associate Professor of Veterinary and Biomedical Science
Establishing the Virulence Factors

Center for Infectious Disease Dynamics

Timothy McNellis

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.

Andrew Read

Director, Huck Institutes of the Life Sciences; Evan Pugh Professor of Biology and Entomology; Eberly Professor of Biotechnology
The ecology and evolutionary genetics of infectious disease.

Center for Infectious Disease Dynamics

Thomas K Wood

Endowed Chair Professor of Engineering

Erina MacGeorge

Professor of Communication Arts and Science
Antibiotic stewardship, doctor-patient communication

Center for Infectious Disease Dynamics

Bhushan Jayarao

Professor of Veterinary and Biomedical Sciences

Chad Dechow

Associate Professor of Dairy Cattle Genetics

Joyce Sakamoto

Assistant Research Professor

Center for Infectious Disease Dynamics

Pak Kin Wong

Professor of Biomedical Engineering, Mechanical Engineering, and Surgery

Paul Babitzke

Co-Director of the Center for RNA Molecular Biology; Professor of Biochemistry and Molecular Biology
Regulation of gene expression by RNA structure and RNA-binding proteins

Scott Showalter

Professor of Chemistry; Professor of Biochemistry and Molecular Biology
Biophysical Chemistry applied to solution NMR spectroscopy of partially disordered proteins. NMR studies of protein dynamics coupled with computational and theoretical studies of the coupling between nuclear spin relaxation and molecular motion.

Elsa Hansen

Assistant Research Professor - Read Lab
Evolution, transmission and management of drug-resistance. Improving treatment of infectious disease and cancer using mathematical models and optimal control theory.

Center for Infectious Disease Dynamics

David Kennedy

Assistant Professor of Biology
Ecology and evolution of infectious diseases, with particular interest in how disease dynamics influence pathogen emergence, virulence evolution, and drug or vaccine resistance.

Center for Infectious Disease Dynamics

Jack Vanden Heuvel

Director of the Center for Excellence in Nutrigenomics; Professor of Molecular Toxicology
Mechanisms of action of hypolipidemic drugs and peroxisome proliferators; steroid hormone receptor-mediated signal transduction; signal transduction by lipids and fatty acids; receptor-mediated carcinogenesis.

Wayne Curtis

Professor of Chemical Engineering
Regulation and signal transduction in plant secondary metabolism. Phytoremediation of hydrocarbons. Commercial chemical production in plants and plant tissue culture.

Michael Katzman

Professor of Medicine and Microbiology and Immunology

Diane Thiboutot

Professor of Medicine and Dermatology

Sarah Ades

Associate Professor of Biochemistry & Molecular Biology; Associate Dean of The Graduate School
Signal transduction and antibiotic-induced stress responses in bacteria.

Scott Medina

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.

Gang Ning

Director, Microscopy Core Facility
Using microscopy and flow cytometry to analyze structures and biochemical properties of cells.

Center for Infectious Disease Dynamics

Elizabeth Proctor

Assistant Professor of Neurosurgery, Pharmacology, Biomedical Engineering, and Engineering Science & Mechanics
Systems biology of complex disease. Integration of heterogeneous data types across length scales.

Squire Booker

Evan Pugh Professor of Chemistry; Professor of Biochemistry and Molecular Biology
Elucidating the chemical mechanisms by which enzymes containing iron-sulfur clusters catalyze chemical reactions. Most ongoing projects deal with members of the Radical S-adenosylmethionine Superfamily, a diverse group of enzymes that employ radical chemistry to catalyze transformations involved in post-transcriptional and post-translational modifications, cofactor biosynthesis, secondary metabolite biosynthesis, and enzyme activation.

Katsuhiko Murakami

Professor of Biochemistry and Molecular Biology
Structural and Mechanistic Enzymology of Prokaryotic RNA Polymerases

Timothy Meredith

Assistant Professor of Biochemistry and Molecular Biology
Understanding how bacterial cell surface complex lipids are synthesized, to characterize structural modifications in response to varying growth environments, and to uncover how these changes are regulated.

Mauricio Pontes

Assistant Professor of Pathology

Terry Etherton

Distinguished Professor of Animal Nutrition

Bob Roberts

Professor and Head of Food Science

Emily Weinert

Associate Professor of Biochemistry and Molecular Biology
The mechanisms by which bacteria sense and respond to the environment, as well as how these signaling proteins/pathways affect competition, host colonization, and pathogenesis.

Howie Weiss

Professor of Biology
I am a Biomathematican and very recently moved to Penn State from Georgia Tech (I also had appointments at Emory in Public Health and PBEE). Bacteria and their viruses (phages) provide a way to study ecological and evolutionary processes in real time under the well-controlled laboratory conditions. Many of the questions that our group studies lie at the intersection of fundamental science and improving human and animal health. We develop new approaches to mathematical modeling to better understand the role of the physical structure in how bacteria grow and evolve. To complement this computational work, we work closely with microbiologists, biochemists, virologists, physicians, veterinarians, etc. and combine mathematical models with experiments. In recent years I have taught courses in virus dynamics, population genetics, dynamics and bifurcations, advanced linear algebra, and stochastic processes.

Center for Infectious Disease Dynamics

Amie Boal

Associate Professor of Chemistry and of Biochemistry and Molecular Biology
The structural differences between members of large metalloenzyme superfamilies that share common features but promote different reactions or use distinct cofactors.