Casafoto do pou sigma

Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity

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Last updated 05 julho 2024
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Developmental genetics of sea anemone mechanosensory neurons provides insights into the deep evolutionary history of mechanoreceptor development in animals.
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Transcription factors with conserved binding sites near ATOH1 on
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Single-cell transcriptomics identifies conserved regulators of
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Auditory Adventures: Cadence HiFi Digital Signal Processing and
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Mechanosensitive Hair Cell-like Cells from Embryonic and Induced
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Figure supplement 1: pou-iv mutants lack mature cnidocytes. 603
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Cnidarian hair cell development illuminates an ancient role for
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Cnidarian hair cell development illuminates an ancient role for
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
PDF] Diversity of cilia-based mechanosensory systems and their
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Reconstruction of protein domain evolution using single-cell
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Cnidarian hair cell development illuminates an ancient role for
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Cnidarian hair cell development illuminates an ancient role for
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Polycystin-1 Induces Cell Migration by Regulating
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Single-cell transcriptomics identifies conserved regulators of
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Figure supplement 2: Life cycle transition in the sea anemone
Cnidarian hair cell development illuminates an ancient role for the class IV POU transcription factor in defining mechanoreceptor identity
Humans, Sea Anemones, and Hair Cells—Oh My! - American Academy of
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