First name,Last name,Preferred title,Overview,Position,Department,Individual
Paul,Samollow,Professor,"Comparative functional genomics and genome evolution in vertebrates; structural organization of genetic material and its relationship to patterns of gene regulation and expression within and among species. Epigenetics of meiotic recombination; patterns and epigenetic determinants of sexual dimorphism in meiotic recombination rates and chromosomal distributions. Population genomics: genetic and ecological processes that influence the distribution of genetic diversity within and among populations in nature; population structure, isolation, and speciation. QTL mapping: linkage mapping to detect genes that influence physiologic and health-related traits. Research in my laboratory focuses primarily on the genome of the gray, short-tailed opossum, Monodelphis domestica, the world's primary laboratory marsupial model for genomic, biomedical, and evolutionary research. We also study isolated desert populations of pupfishes of the genus Cyprinodon in west Texas.nature, and their roles in promoting population structuring, isolation, and speciation. QTL mapping: linkage mapping to detect genes that influence physiologic and health-related traits. Research in my laboratory focuses primarily on the genome of the gray, short-tailed opossum, Monodelphis domestica, the world's primary laboratory marsupial model for genomic, biomedical, and evolutionary research. We also study isolated desert populations of pupfishes of the genus Cyprinodon in west Texas.",Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n38c16b10
Hongbin,Zhang,Professor,"My research is focused on genomics and systems biology in crop plants, particularly development of genomic and systems biological knowledge and new or advanced technologies for enhanced crop research and breeding. These include re-establishing of the molecular basis and mechanisms of genetics and biology; cloning and characterization of genes and quantitative trait loci (QTLs) controlling traits of agronomic importance; deciphering of the molecular mechanisms of biological phenomena or traits of importance such as quantitative genetics, epigenetics, crop yield, crop quality, heterosis and plant polyploidization; and development of molecular toolkits and associated pipelines for next-generation enhanced crop breeding such as gene-based breeding and crop production such as molecular precision agriculture.",Professor,Soil and Crop Sciences,https://scholars.library.tamu.edu/vivo/display/n8ad1df35
David,Threadgill,Professor,"Our laboratory uses the mouse as an experimental genetic model to investigate factors that contribute to inter-individual differences in health and disease. Ourcurrent research activities include the identification and functional characterization of alleles contributing to cancer susceptibility, the function of theErbbgenefamily in development and disease, and the role of genetic variation in response to environmental stimuli. To support these investigations, we also aredeveloping new genetic tools to support mammalian systems genetic approaches to phenotypes with complex genetic and environmental etiologies.",Director||Professor||Professor||Professor,Cell Biology and Genetics||Institute of Genome Sciences and Society||Biochemistry and Biophysics||Nutrition,https://scholars.library.tamu.edu/vivo/display/n8ee0b54f
Terje,Raudsepp,Professor,"Comparative genomics and molecular cytogenetics of animals, birds and other vertebrates organization, function and evolution of sex chromosomes; equine genomics - genomics of genetic diseases and disorders of sexual development and reproduction; alpaca and camelid genomics.",Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/n970d3a82
Leif,Andersson,Professor,,Professor,Veterinary Integrative Biosciences,https://scholars.library.tamu.edu/vivo/display/ne8ae2a28
John,Mullet,Professor,"Functional genomics, bioinformatics, and DNA chip technology are fundamentally changing research on biological systems. Knowledge of complete genome sequences and high resolution genome technology provide an extraordinary opportunity to understand complex biological processes and to relate detailed understanding of protein structure and biochemical mechanism to the function of whole organisms and biological systems in nature.
Our research team is helping to build genome maps and DNA diagnostic microarrays/chips for analysis of global gene expression and biodiversity. This new technology is being used to explore the molecular basis of several fundamental plant responses: (1) light responsive genetic systems that help protect plants from damage by high intensity UV/blue light; (2) genetic systems that allow plants to adapt to the environment; (3) genes and signal transduction pathways that help protect plants from insects and disease; and (4) genes that regulate plant development (flowering time, fertility restoration, chloroplast development/number).",Professor,Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/nf1c81fcb
J,Johnston,Professor,"I estimate genome size for sequencing projects for a very wide range of vertebrates, invertebrates and plants..
I work on genome size evolution, & genomics.
My other areas of research include cytological, ecological and population genetics of arthropods.",Professor,Entomology,https://scholars.library.tamu.edu/vivo/display/nfc3f68fb
David,Stelly,Professor,"My scientific research, graduate and post-graduate programs employs multi-disciplinary approaches to conduct and study use of naturally occurring germplasm for crop improvement. Elements of the research include wild-species germplasm introgression, chromosome substitution, reproductive and ploidy manipulations, conventional cytogenetics and fluorescence in situ hybridization, genetic analysis, DNA marker and assay (SNP) development, marker assisted selection, reproductive cytology and genetics, and various types of genome mapping, sequencing, and their integration for genome sequencing and assembly. Most of my research aims to enhance the germplasm, knowledge, science and technologies for genetic improvement Upland cotton, e.g., economic yield and sustainability; some, however, is devoted to sorghum and peanut, especially wide hybridization and germplasm utilization.",Professor||Chair,Soil and Crop Sciences||Molecular and Environmental Plant Sciences,https://scholars.library.tamu.edu/vivo/display/nfec36db0