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FoxP2 isoforms delineate spatiotemporal transcriptional networks for vocal learning in the zebra finch.

eLife (2018-01-24)
Zachary Daniel Burkett, Nancy F Day, Todd Haswell Kimball, Caitlin M Aamodt, Jonathan B Heston, Austin T Hilliard, Xinshu Xiao, Stephanie A White
RESUMEN

Human speech is one of the few examples of vocal learning among mammals yet ~half of avian species exhibit this ability. Its neurogenetic basis is largely unknown beyond a shared requirement for FoxP2 in both humans and zebra finches. We manipulated FoxP2 isoforms in Area X, a song-specific region of the avian striatopallidum analogous to human anterior striatum, during a critical period for song development. We delineate, for the first time, unique contributions of each isoform to vocal learning. Weighted gene coexpression network analysis of RNA-seq data revealed gene modules correlated to singing, learning, or vocal variability. Coexpression related to singing was found in juvenile and adult Area X whereas coexpression correlated to learning was unique to juveniles. The confluence of learning and singing coexpression in juvenile Area X may underscore molecular processes that drive vocal learning in young zebra finches and, by analogy, humans.

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Sigma-Aldrich
Normal Rabbit IgG, Normal Rabbit IgG Polyclonal Antibody control validated for use in Immunoprecipitation & Western Blotting.
Sigma-Aldrich
Anti-FoxP2 Antibody, serum, from rabbit