Publications

Figueroa Velez, D.X., Ellefsen, K.L., Hathaway, E.R., Carathedathu, M.C., Gandhi, S.P. (2017) Contribution of innate cortical mechanisms to the maturation of orientation selectivity in Parvalbumin interneurons. J. Neurosci. 37(4) 820-829. doi:10.1523/JNEUROSCI.2386-16.2017

Sun, Y., Ikrar, T., Davis, M.F., Gong, N., Zheng, X. Luo, Z.D., Lai, C., Mei, L., Holmes, T.C., Gandhi, S.P., Xiangmin, X. (2016) Neuregulin-1/ErbB4 signaling regulates visual cortical plasticity. Neuron. 92(1) 160-173. doi:10.1016/j.neuron.2016.08.033

Davis, M.F., Figueroa Velez, D.X., Guevarra, R.P., Yang, M.C., Habeeb, M., Carathedathu, M.C., Gandhi, S.P. (2015) Inhibitory neuron transplantation into adult visual cortex creates a new critical period that rescues impaired vision. Neuron. 86(4): 1055-1066. doi:10.1016/j.neuron.2015.03.062

Southwell, D.G., Alvarez-Buylla, A., Stryker, M.P., Gandhi, S.P. (2010) Cortical plasticity induced by inhibitory neuron transplantation. Science. 327(596): 1145-1148. doi:10.1126/science.1183962

Gandhi, S.P., Yanagawa, Y., Stryker, M.P. (2008) Delayed plasticity of inhibitory neurons in developing visual cortex. Proc. Nat. Acad. Sci. USA 105: 16797-16802. doi: 10.1073/pnas.0806159105

Gandhi, S.P., Cang, J., Stryker, M.P. (2005) An eye-opening experience. Nat. Neurosci. 8(1):9- 10. doi:10.1038/nn0105-9

Gandhi, S.P., Stevens, C.F. (2003) Three modes of synaptic vesicular recycling revealed by single vesicle imaging. Nature. 423: 607-13

Heeger, D.J., Gandhi, S.P., Huk, A.C., & Boynton, G.M. (2001) Neuronal correlates of attention in human visual cortex. In J. Braun, C. Koch, & J. Davis (Eds.), Visual Attention and Cortical Circuits (pp. 25-47). Cambridge, MA: MIT Press.

Gandhi, S.P. (2001) Memory retrieval: reactivating sensory cortex. Curr. Biol. 11(1):R32-34

Wandell, B.A., Poirson, A.A., Baseler, H.A., Boynton, G.M., Huk, A.C., Gandhi, S.P., & Sharpe, L.T. (1999) Color signals in human motion-selective cortex. Neuron. 24, 901-909

Gandhi, S.P., Heeger, D.J., Boynton G.M. (1999) Spatial attention affects brain activity in human primary visual cortex. Proc. Natl. Acad. Sci. 96:3314-3319