Professional Education

  • Bachelor of Science, University Of Tehran (2012)
  • Doctor of Philosophy, University of Maryland College Park (2017)

All Publications

  • Stability, affinity, and chromatic variants of the glutamate sensor iGluSnFR. Nature methods Marvin, J. S., Scholl, B., Wilson, D. E., Podgorski, K., Kazemipour, A., Muller, J. A., Schoch, S., Quiroz, F. J., Rebola, N., Bao, H., Little, J. P., Tkachuk, A. N., Cai, E., Hantman, A. W., Wang, S. S., DePiero, V. J., Borghuis, B. G., Chapman, E. R., Dietrich, D., DiGregorio, D. A., Fitzpatrick, D., Looger, L. L. 2018


    Single-wavelength fluorescent reporters allow visualization of specific neurotransmitters with high spatial and temporal resolution. We report variants of intensity-based glutamate-sensing fluorescent reporter (iGluSnFR) that are functionally brighter; detect submicromolar to millimolar amounts of glutamate; and have blue, cyan, green, or yellow emission profiles. These variants could be imaged in vivo in cases where original iGluSnFR was too dim, resolved glutamate transients in dendritic spines and axonal boutons, and allowed imaging at kilohertz rates.

    View details for PubMedID 30377363