Ann Arbor, Michigan, United States
Evolution of the cerebral cortex is thought to underlie our species’ most remarkable cognitive, perceptive, and motor capabilities, the execution of which depends on the precise establishment of axonal connectivity during development. Miswiring of cortical circuitry can lead to disorders, including autism and schizophrenia, that affect the most distinctly human cognitive functions. Research in the Kwan laboratory is aimed at understanding the developmental processes that underlie cortical circuit assembly, their evolution during the emergence of human cognition, and their dysregulation in neurodevelopmental disorders. Our approach integrates: 1) human genetic and genomic studies to identify candidate genes; 2) neurobiological analyses of genetically-engineered mouse models and post-mortem human brains to characterize the roles of these genes in circuit development; and 3) investigations of their molecular interactions to dissect candidate pathways of normal and disordered neocortical development. For further information on the Kwan laboratory at the Molecular & Behavioral Neuroscience Inst. (MBNI) and Dept. of Human Genetics at the Univ. of Michigan, please visit www.kwanlab.org
"Development, evolution, and dysfunction of neural circuits of the neocortex."
"Development, evolution, and dysfunction of neural circuits of the neocortex."
“FMRP-dependent translation of NOS1 mRNA in the developing human neocortex” Advisor: Nenad Sestan
“Transcriptional regulation of neocortical circuit development” Advisor: Nenad Sestan
“Custom microarray analysis of the differentiation of a human fetal brain cell line” Advisor: Timothy Zacharewski
“High-resolution physical mapping of chromosome 7 genes” Advisor: Stephen Scherer