First name,Last name,Preferred title,Overview,Position,Department,Individual
Bruce,Riley,Professor,"My lab studies inner ear development in zebrafish. A prominent feature of our research is to investigate how cell-cell signaling and downstream gene-interactions control development. One project in the lab focuses on how cell signaling regulates ectodermal patterning during gastrulation to establish the otic placode, the precursor of the inner ear. Our recent work shows that localized Fgf signaling is especially critical for inducing formation of the otic placode, and members of the Pax2/5/8 family of transcription factors are important mediators of Fgf signaling. During later stages of inner ear development, we are exploring how sensory hair cells and neurons are regulated. Our studies address how these cells initially form, how they are genetically maintained, and how they become specialized for hearing vs. balance. We are also investigating how zebrafish can replace dead and damaged hair cells, an ability that mammals have lost. The inability to regenerate hair cells explains why humans show progressive irreversible hearing loss as we age. It is hoped that activating or augmenting human homologs of genes shown to operate in zebrafish might help restore hearing and balance in humans.",Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n0dbb8253
Kathryn,Ryan,Instructional Associate Professor,"1. Delineate the function of the Ran cycle in NPC assembly
Model for NPC AssemblyRan is a small GTPase that cycles between a GTP and GDP bound form to regulate many nuclear processes. All 4 components of the Ran cycle were isolated in the npa screen. Characterization of these mutants revealed membrane defects and the accumulation of nucleoporin containing vesicles in the cytoplasm. The accumulation of such vesicles in these npa mutants suggests that NPC assembly involves a Ran-mediated vesicular fusion event at the outer nuclear envelope. In this model of NPC assembly, a subset of nucleoporins is first concentrated in vesicles (A). When the vesicles fuse with the outer nuclear membrane in a Ran-dependent manner (B), a critical, localized concentration of these nucleoporins triggers pore formation (C) and nucleates new NPC assembly (D and E). To test the model, work is being done to characterize these vesicles. This includes biochemical approaches to purify vesicles and cell biological and genetic approaches to determine how vesicle-associated proteins contribute to NPC assembly. In addition, we are working to understand how Ran interacts with these vesicles to mediate vesicle fusion to the outer nuclear membrane.
2. Define additional steps in the NPC assembly pathway
There are events both upstream and downstream of the Ran cycle in the assembly pathway. Further cloning and characterization of mutants from the npa collection will continue to identify factors involved in other steps of NPC biogenesis and provide a platform from which to study these discrete events.",Instructional Associate Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n613870d1
Asha,Rao,Instructional Professor,,Assistant Department Head for Academic Affairs,Biology,https://scholars.library.tamu.edu/vivo/display/n631e24a7
Jolene,Ramsey,Visiting Assistant Professor,,Visiting Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/n6b53d6ec
Tapasree,Roy Sarkar,Assistant Professor,"The dynamic interaction of cancer cells with the tumor microenvironment (TME) is crucial to stimulate the heterogeneity of cancer cells, and to increase multidrug resistance ending in cancer cell progression and metastasis. Understanding the underlying molecular & cellular mechanisms governing these interactions can be used as a novel strategy to disrupt cancer cell-TME interaction and contribute to the development of efficient therapeutic strategies. By integrating cutting-edge cellular and molecular biology, bioinformatics, and bioengineering approaches, our lab is investigating the complexity of TME.",Assistant Professor,Biology,https://scholars.library.tamu.edu/vivo/display/nf08a1119