2012
DOI: 10.1002/ar.22573
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Evolution of Sound and Balance Perception: Innovations that Aggregate Single Hair Cells into the Ear and Transform a Gravistatic Sensor into the Organ of Corti

Abstract: Here, we review the molecular basis of mechanosensory cell and mechanosensory organ development and evolution with an emphasis on the conservation of transcription factors and emerging data on conserved gene networks. The ear, the organ of vertebrates dedicated to the perception of sound and balance, perceives these stimuli with the use of mechanosensory cells. The developmental gene regulatory network used during mechanosensory cellular development has been conserved from ancient bilaterian cells, and modifie… Show more

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Cited by 43 publications
(48 citation statements)
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“…The lateral line system senses water motion and initiates the appropriate behavioral response for capturing prey, avoiding predators, and schooling. The morphology and function of sensory hair cells are evolutionarily conserved from fish to mammals (32,33). Lateral line hair cells are located in the center of a mechanosensory organ known as the neuromast and are surrounded by inner support cells and an outer ring of mantle cells.…”
Section: Significancementioning
confidence: 99%
“…The lateral line system senses water motion and initiates the appropriate behavioral response for capturing prey, avoiding predators, and schooling. The morphology and function of sensory hair cells are evolutionarily conserved from fish to mammals (32,33). Lateral line hair cells are located in the center of a mechanosensory organ known as the neuromast and are surrounded by inner support cells and an outer ring of mantle cells.…”
Section: Significancementioning
confidence: 99%
“…Only genetic studies could unravel how orientation groups form during ontogeny, leading to the different orientation patterns. Knowledge about underlying genetic processes of pattern formation is increasing (Duncan and Fritzsch, 2012;Sienknecht et al, 2014) and is likely to shed new light on the evolution of different orientation patterns in different lineages.…”
Section: Macula Sacculimentioning
confidence: 99%
“…It should be noted that a series of transformations, from simple concentric arrangements of structures at the apex of a cell to asymmetric specializations of the apical surface, has been proposed for metazoans Brain Behav Evol 2014;83:150-161 DOI: 10.1159/000357752 152 [Fritzsch et al, 2007;Manley and Ladher, 2008] which are likely mediated by genes associated with hair cell development [Duncan and Fritzsch, 2012]: -class A bHLH genes, which regulate neuronal and hair cell differentiation, evolved only in metazoans [Pan et al, 2012]; -approximately 22-nucleotide-long microRNAs, which are essential for neurosensory development [Kersigo et al, 2011], evolved only in metazoans [Pierce et al, 2008] and are highly conserved [Philippe et al, 2011], and -Wnt signaling evolved only in diploblastic organisms [Fairclough et al, 2013]. With the recent finding that Wnt signaling is unique to diploblastic organisms, we explore the link between Wnt signaling and the different aspects of planar cell polarity (PCP).…”
Section: Evolution Of Hair Cells and Their Polarized Transduction Unitmentioning
confidence: 99%
“…Ectopic hair cells of vestibular character develop in the nonsensory 'homogene cell' domain in chickens after forced activation of Wnt signaling [Stevens et al, 2003], indicating the maintained competence of this cochlear duct domain to generate hair cells. Several mouse mutants possess sensory epithelia that remain fused and display intermediate PCP patterns [Duncan and Fritzsch, 2012].…”
Section: Evolution Of Hair Cell Orientation Patternsmentioning
confidence: 99%