43 People Results for the Tag: Reactive Oxygen Species
Istvan Albert
Research Professor of Bioinformatics
Bioinformatics, large scale biological data analysis, microarrays and sequence analysis. Scientific programming, algorithm development. Database-driven web development.
Center for Infectious Disease Dynamics
Molly Hall
Dr. Frances Keesler Graham Early Career Professor; Assistant Professor of Veterinary and Biomedical Sciences
Building tools to elucidate the complex genetic and environmental underpinnings of human disease. Integrating genetic (genotype, sequence, structural variation) and exposure (derived from surveys and metabolomics methods) big data to predict disease status.
Girish Kirimanjeswara
Emphasis Area Representative, Immunology and Infectious Disease; Associate Professor of Veterinary and Biomedical Science
Establishing the Virulence Factors
Center for Infectious Disease Dynamics
Anne Vardo-Zalik
Assistant Professor of Biology
The ecology and population genetics of malaria parasites and their vectors
Center for Infectious Disease Dynamics
Fang (Rose) Zhu
Assistant Professor of Entomology
Understanding the mechanisms and evolution of insects’ adaptation to chemical stresses in their environment.
John Golbeck
Professor of Biochemistry and Biophysics
Light reactions in photosynthesis. Structure and function of photosystem I and the heliobacterial reaction center. Regulation and bioassembly of iron-sulfur clusters in cyanobacteria and plants. Plant and bacterial metalloproteins. Generation using Photosystem I, hydrogenase, and molecular wire technology.
Colin Barnstable
Professor and Chair of Neural Behavioral Sciences
How interacting networks of transcription factors and signal transduction molecules guide the development of precursor/stem cells into mature neurons. Role of these networks in neurodegenerative diseases. Factors that can act as neuroprotective agents.
Kumble Sandeep Prabhu
Professor of Immunology and Molecular Toxicology
Molecular mechanisms by which bioactives such as selenium, omega-3 fatty acids, and other products of natural origin alter the host response and immune function in inflammation and cancer
James Adair
Professor of Material Science and Engineering
Nanoscale materials and phenomena for biological, optical and structural applications, property manipulation via novel chemical pathways for designer particles and materials, colloid and interfacial chemistry, powder characterization, powder processing, and commercialization and regulatory pathways for nanomedical human healthcare formulations
Gabriele Monshausen
Associate Professor of Biology
Plant cell signaling. Hormonal and mechanical signal transduction in plant growth regulation. Live cell imaging of subcellular microdomains of ionic signaling.
Lacy Alexander
Professor of Kinesiology
Dr. Alexander utilizes in vivo and in vitro approaches using the human cutaneous circulation to examine the underlying signaling mechanisms mediating microvascular dysfunction with primary human aging, hypercholesterolemia, and essential hypertension.
Gustavo Nader
Professor of Kinesiology
Ribosome biogenesis and cellular growth control. Transcription and epigenetic regulation of ribosomal RNA genes.
Erin Connolly
Professor and Head of Plant Science
Molecular mechanisms of micronutrient transport. Iron uptake and compartmentalization. Metal ion homeostasis
Imhoi Koo
Research Assistant Professor
Develop pipeline and algorithms
of metabolomics data processing.
Parisa Kalantari
Assistant Professor of Immunology
Host-parasite interactions using Schistosoma mansoni-induced liver inflammation in mouse models. Modulation of immune responses by the parasite as well as the role of inflammasomes in inducing schistosomiasis.
Ashley Shay
Director, Metabolomics Core Facility
The implementation and expansion of liquid chromatography tandem mass spectrometry for the structural elucidation of novel lipid mediators and metabolites in various inflammatory diseases coupled with diverse cellular and in vivo approaches to determine functionality.
Urara Hasegawa
Assistant Professor of Materials Science and Engineering
The development of polymeric nanomaterials for controlled delivery of drug and bioactive signaling molecules