My well established vision research program encompasses my passion for discovery and deciphering rod and cone phototransduction mechanisms in health and disease using animal models for retinal degeneration. Throughout my academic career my research discoveries identified key genes in the pineal and retina, including arrestins to maintain normal high acuity vision. Currently, my personal goals include developing alternative therapeutic rescue treatment strategies with replacement gene therapy and in vitro stem cell technology. With Cobrinik and collaborators, we identified key developmental cone regulators controlling retinoblastoma genesis. I strongly believe in the importance of mentoring vision and clinician scientists and providing medical ethical training doctoral and medical students, and society.
My well established vision research program encompasses my passion for discovery and deciphering rod and cone phototransduction mechanisms in health and disease using animal models for retinal degeneration. Throughout my academic career my research discoveries identified key genes in the pineal and retina, including arrestins to maintain normal high acuity vision. Currently, my personal goals include developing alternative therapeutic rescue treatment strategies with replacement gene therapy and in vitro stem cell technology. With Cobrinik and collaborators, we identified key developmental cone regulators controlling retinoblastoma genesis. I strongly believe in the importance of mentoring vision and clinician scientists and providing medical ethical training doctoral and medical students, and society.
