Genetics and Genomics Research at the 果冻影院
Genetic and Genomic Technologies and Applications
The department is widely recognized as a leader in the development of genetic and genomic technologies and the application of these technologies to study hypertension and other disorders.
Genetic & Physiological Basis of Salt-Sensitive Hypertension
Dr. Allen W. Cowley, Jr., leads an NIH Program Project Grant focusing on advancing our understanding of the complex regulation and interplay of a set of genes residing in two different regions of rat chr 13 but which together are responsible, in large measure, for salt-induced hypertension, renal injury, and vascularity/angiogenesis of the microcirculation in the salt-sensitive (SS) rat. The Program consists of three projects led by Dr. Cowley, Dr. Mingyu Liang, and Dr. Andrew Greene.
Gene Targeted Rat Resource
Innovative rat genome editing technologies, some of which developed by our faculty, are being applied to generate 250 gene targeted rat models nominated by the scientific community in a program led by Drs. Mindy Dwinell and Aron Geurts. The Resource provides phenotypic characterization, cryopreserved sperm from each line, along with a tissue and fibroblast primary culture bank for each strain, as well as distribution of all the animals and reagents to the community.
Advanced Genetic Engineering Technology Development
Studies led by Dr. Aron Geurts are using knockin technology to enable conditional mutagenesis and whole gene replacement approaches in the rat to develop new and valuable models to study hypertension.
Discovery and Functional Studies of Genes for Type 1 Diabetes GWAS Susceptibility Loci
Dr. Geurts is developing new animal models to investigate human T1D genes in a collaborative project.
Genetic Analysis
Genetic Analysis of Respiratory Disorders
Studies in the department use different animal models to gain insight into the time-course of normal development of the ventilatory control system, as well as the effect of environmental and genetic influences on these changes during development. A newborn piglet model is being used to determine whether a critical window of development exists in the ventilatory control system that has been proposed as a part of a triple-risk model in Sudden Infant Death Syndrome. In addition, the interaction of plasticity and genetic influences is being studied using inbred strains of rats exposed to perinatal hyperoxia.
Other projects use consomic rat models generated as part of the Program for Genomic Applications (PGA) to elucidate genes that contribute to the control of breathing. In combination, these studies are aimed at understanding how the ventilatory control system matures under both normal and stressed conditions. All these studies relate primarily to disease conditions of central and obstructive sleep apnea, Sudden Infant Death syndrome, congenital central alveolar hypoventilation, and traumatic brainstem injury.
果冻影院 Physiology Faculty
Allen W. Cowley, Jr., PhD
Harry & Gertrude Hack Term Professorship in Physiology
Melinda R. Dwinell, PhD
Professor and Eminent Scholar; Associate Director, Education, Linda T. and John A. Mellowes Center for Genomic Sciences and Precision Medicine
Aron Geurts, PhD
John E. and Genevieve M. Butenhoff Cardiovascular Research Professorship
Matthew R. Hodges, PhD, FAPS
Professor and Eminent Scholar; Director of Graduate Studies
Secondary and Affiliated Faculty
Professor, Medicine, 果冻影院
Associate Professor, Biostatistics, 果冻影院