Neural Circuits and Computation Laboratory
Neural Circuits and Computation Laboratory
The broad goal of the NCC Lab’s research is to understand the principles of computation performed by individual neurons and the neural circuits they form, and to identify how neurological and psychiatric diseases disrupt these operations. To do this, we have developed novel tools and technologies that incorporate high-density neurophysiological recordings in awake behaving animals, reprogrammed human induced Pluripotent Stem Cells (iPSC), whole cell electrophysiology, 2-photon imaging, and theory.
These resources are brought to bear on 2 overarching questions in the lab:
- What does the activity of large ensembles of neurons tell us about the computations being performed while the animal is behaving, and how is this activity disrupted by neurological and psychiatric disorders.
- How do the biophysical properties of neurons shape their computations, to what extent are these properties unique in human neurons, and how do diseases alter biophysics and therefore circuit function.
Krishnan Padmanabhan, Ph.D.
Principal Investigator
- Adult-neurogenesis allows for representational stability and flexibility in early olfactory system.; bioRxiv : the preprint server for biology. 2024 Jul 04.
- Rigor and reproducibility in human brain organoid research: Where we are and where we need to go.; Stem cell reports. 2024 May 10.
- Differential disruptions in population coding along the dorsal-ventral axis of CA1 in the APP/PS1 mouse model of Aβ pathology.; PLoS computational biology; Vol 20(5), pp. e1012085. 2024 May 06.
- Algebraic approach to spike-time neural codes in the hippocampus.; Physical review. E; Vol 108(5-1), pp. 054404. 2023 Nov.
Affiliations
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Neural Circuits and Computation Laboratory
601 Elmwood Ave
Rochester, NY 14642