Biotechnology Graduate Faculty Research Interests

Dr. Mark Chatfield

Plant Physiology, Microbiology, Molecular Biology   chatfield@wvstateu.edu  Dr. Chatfield’s lab is interested in the interaction between microflora of the soil and trees, particularly with respect to reclamation of strip mines.
 

Dr. Sean Collins

Social Insect Biology, Insect Population Biology, Ecology   scollin5@wvstateu.edu  Dr. Collins’ lab uses molecular approaches to define population distributions of social wasps.

Dr. Jonathan Eya

Fish Biology and Nutrition, Aquaculture, Nutrigenomics, Nutritional Immunology  eyajc@wvstateu.edu Dr. Eya’s lab is interested in applied aquaculture, and is currently exploring mitochondrial gene expression relative to nutrition.

Dr. Richard Ford

Coordinator, Biotechnology Graduate Program.  Principles of Biology, Fundamentals Biology, Microbiology, Virology   fordri@wvstateu.edu  Dr. Ford does not have a lab.

Dr. Gerald Hankins

Tumor Biology, Gene Therapy   ghankins@wvstateu.edu  Dr. Hankins’ lab studies aspects of meningioma biology, including gene therapy and the effects of exogenous chemicals (ex. progesterone) on gene expression.

Dr. Katherine Harper
Chair, Department of Biology.  Genetics, Cell Biology, Virology  harperkl@wvstateu.edu

Dr. Rob Harris
Muscle Physiology   harrisro@wvstateu.edu  Dr. Harris studies the response of smooth muscle cytoskeletal response to stimuli such as mechanical stress and nutritional chemicals (ex. resveratrol).

Dr. Amir Hass

Environmental Soil Chemist amirhass@wvstateu.edu; Dr. Hass research focus on fate and chemical behavior of nutrients and pollutants in soil and water, on beneficial use of agronomic, municipal, and industrial waste-streams, and on development of reclamation and mitigation practices to offset anthropogenic impacts on ecosystem services.

Dr. David Huber

Environmental Microbiology, Environmental Microbial Genomics, Microbial Diversity, Biofilms, Anaerobic Digestion   huberdh@wvstateu.edu  Dr. Huber’s lab uses molecular approaches to characterize the identity and function of microbial communities in poultry waste treated in a thermophilic anaerobic digester.

Dr. Barbara Liedl

Plant Breeding and Genetics, Horticulture, Plant Reproductive Barriers, Sustainable Agriculture liedlbe@wvstateu.edu  Dr. Liedl’s lab is developing insect and disease resistant tomato varieties for greenhouse and high tunnel production using marker assisted selection.  Her lab also works on reproductive barriers between cultivated tomato and their wild species to assist in transfer of resistance traits.

Dr. Padma Nimmakayala

Research Scientist and Associate Professor: Quantitative Genetics, DNA marker-assisted plant breeding  padma@wvstateu.edu  Dr. Nimmakayala’s research focuses on molecular marker development, genetic and physical mapping, marker assisted selection in vegetable crops (pepper, watermelon, sweetpotato and other cucurbits).

Dr. Umesh Reddy

Plant Genomics, Biotechnology   ureddy@wvstateu.edu  Dr. Reddy teaches Biotechniques, Genetics, Crop Diversity and Evolution, Graduate Seminar and Eukaryotic Molecular Genetics.  Dr. Reddy’s lab specializes in genomics of significant traits in commercially important plants, including cotton, peppers, melons.

Dr. Tim Ruhnke

Systematics and Evolution of Parasitic Platyhelminths, Environmental Parasitology ruhnketr@wvstateu.edu  Dr. Ruhnke studies the phylogeny and evolution of tapeworms in sharks and rays, using both traditional phenotypic characterization as well as molecular (rDNA) approaches.

Dr. Sanju A. Sanjaya

Plant Biotechnology, Molecular biology, Synthetic Biology, Biofuels and Phytoremediation. sanjaya@wvstateu.edu  http://www.wvstateu.edu/energy.aspx  Dr. Sanjaya’s lab is leading an active research program to design plants and microalgae with enhanced bioenergy, nutritional value, industrial compounds and phytoremediation for higher production, profitability and sustainability. His lab uses bioinformatics, biochemical, molecular and cell biology, genetics and genetic engineering approaches to understand plant lipid metabolism mechanisms.

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