Peter D Calvert, PhD

Peter D Calvert, PhD
Appointed 04/01/06
3261 Weiskotten Hall
766 Irving Ave.
Syracuse, NY 13210

315 464-7753

Current Appointments

Hospital Campus

  • Downtown

Research Programs and Affiliations

  • Biochemistry and Molecular Biology
  • Biomedical Sciences Program
  • Neuroscience Program
  • Neuroscience and Physiology
  • Ophthalmology
  • Research Pillars

Education & Fellowships

  • Postdoctoral Fellow: University of Pennsylvania, 2006
  • Postdoctoral Fellow: Harvard Medical School, 2003
  • PhD: University of Wisconsin at Madison, 1996

Research Interests

  • Molecular mechanisms of protein transport and localization in retinal neurons; mechanisms of retinal degenerative diseases

Publications

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Research Abstract

Research in my laboratory is aimed at understanding the mechanisms of signal dependent protein localization and transport in neurons. Dynamic protein localization within cells is often determined by environmental stimuli. In rod photoreceptors of the retina transitions between darkness and light result in the massive translocation of several key signal transduction proteins between two major compartments. The second and third most abundant proteins in rods, arrestin and transducin, respectively, move in opposite directions. Arrestin, a protein that has been identified to be important for regulation of heterotrimeric G protein coupled receptors, is found primarily in the inner segment compartment of dark adapted rods, but essentially its entire compliment is transported to the outer segment compartment upon exposure to light. Transducin, the G protein in rod visual transduction, is found in the rod outer segment in dark-adapted rods and moves to the inner segment with the onset of light. A third phototransduction protein - the calcium binding protein, recoverin - also shifts its position toward the synaptic end of rods when they are exposed to steady light. To further complicate the story, all of these proteins are transported through a thin connecting cilium, within tens of minutes of light onset.

The functions of, and mechanisms underlying these massive protein redistributions that occur day in and day out are not known despite decades of study. A major handicap to investigation has been the use of static, histological methods to examine dynamic processes. In living cells proteins are ever moving, faster or slower, in one direction or randomly. It is the net movement of populations of individual molecules that determines their average distributions within cells. Thus, it stands to reason that the only way to determine the mechanism of cellular localization and transport of proteins is to observe their dynamic behavior in the living, functioning cells they normally inhabit.

We employ multiphoton & confocal microscopy and the expression of fluorescently labeled proteins in transgenic animals to monitor protein dynamics in living cells in real time, particularly after changes in the cell's signaling state. Furthermore, we monitor intracellular signaling using fluorescent indicators such that the changes in protein dynamics may be correlated with the signaling state of the cell. Many disease causing genetic mutations result in the improper localization of proteins in cells. Studying the mechanisms by which proteins are localized and transported in living cells may lead to strategies for therapeutic interventions that will correct or alleviate disorders caused by such mutations.

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Faculty Profile Shortcut: http://www.upstate.edu/faculty/calvertp
Eric Wohlford

Eric Wohlford

Eric Wohlford received a 2012 travel award from the American Society of Tropical Medicine and Hygiene and spent two months in Kenya working in the lab of Rosemary Rochford, PhD, professor and chair of Upstate’s Department of Microbiology & Immunology. Eric studied the effects of malaria on B cells (producers of antibodies that fight infection) and Epstein-Barr Virus infection in the region. “Tropical medicine is unique, in that small, focused improvements in patient care make dramatic improvements in the well-being of patients,” he said.

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Download the MD/PhD 2013-14 Brochure. PDF document