Area:
Social Behavior, Genetics, Neural Circuits
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High-probability grants
According to our matching algorithm, Dhananjay Bambah-Mukku is the likely recipient of the following grants.
Years |
Recipients |
Code |
Title / Keywords |
Matching score |
2017 — 2018 |
Bambah-Mukku, Dhananjay |
K99Activity Code Description: To support the initial phase of a Career/Research Transition award program that provides 1-2 years of mentored support for highly motivated, advanced postdoctoral research scientists. |
Development and Function of a Neural Circuit Underlying Sex-Specificity of Social Behaviors
PROJECT SUMMARY/ABSTRACT Why do males and females behave differently in response to the same sensory cues? Behavioral sex- specificity is most evident in the displays of social behaviors by males and females in response to identical social cues. According to classical models of brain sex differentiation, molecular and architectural differences in brain circuitry are responsible for mediating sex differences in behavior. Alternatively, male and female brains may share a central circuit that is modulated differently. Strong support for this second model emerged from studies of Trpc2 knockout mice in which vomeronasal sensing is impaired, and from recent observations in various animal species including humans. In turn, these data raise the question - how does the brain generate behavior sex specificity? Moreover, little is known about how changes in circulating hormones and neural activity during puberty activate dormant neural circuits for sex specific behaviors ? a process likely to be associated with coordinated changes in synaptic strength and gene expression. I am developing a powerful new tool for studying in situ gene expression dynamics in genetically defined neural circuits. I will use this approach and test the hypothesis that gene expression programs during puberty act on similar circuits in males and females to determine the sex specificity of social behaviors. In preliminary experiments, I have genetically identified a subset of neurons in the mouse hypothalamus that gate behavioral sex-specificity. In the research proposed here, I will investigate the development and function of this neural circuit associated with behavioral sex-specificity by fulfilling the following aims: In Aim 1, I will establish the role of genetically identified neurons in the hypothalamus in gating behavioral sex-specificity using cre-dependent viral tools for cell ablation. Next, I will use a novel tool for cell type specific gene expression analysis to examine the molecular changes in these neurons over puberty. In Aim 2, I will use cre-dependent viral tools to trace the monosynaptic inputs and outputs of these neurons. Finally, in Aim 3, I will use whole cell patch clamp electrophysiology combined with optogenetics and gene expression analysis to examine input specific synaptic and molecular changes in these neurons that accompany the transition through puberty. The training phase of the award, conducted in the laboratories of Dr. Catherine Dulac and Dr. Venkatesh Murthy at Harvard University, outlines a comprehensive plan for the acquisition of technical and professional skills that will enable my transition to an independent research position. The successful completion of this project will provide a platform for future experiments aimed at understanding the development and architecture of neural circuits underlying social behaviors.
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