Literature DB >> 22186725

Shaping sound in space: the regulation of inner ear patterning.

Andrew K Groves1, Donna M Fekete.   

Abstract

The inner ear is one of the most morphologically elaborate tissues in vertebrates, containing a group of mechanosensitive sensory organs that mediate hearing and balance. These organs are arranged precisely in space and contain intricately patterned sensory epithelia. Here, we review recent studies of inner ear development and patterning which reveal that multiple stages of ear development - ranging from its early induction from the embryonic ectoderm to the establishment of the three cardinal axes and the fine-grained arrangement of sensory cells - are orchestrated by gradients of signaling molecules.

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Year:  2012        PMID: 22186725      PMCID: PMC3243092          DOI: 10.1242/dev.067074

Source DB:  PubMed          Journal:  Development        ISSN: 0950-1991            Impact factor:   6.868


  109 in total

1.  Hedgehog-regulated processing of Gli3 produces an anterior/posterior repressor gradient in the developing vertebrate limb.

Authors:  B Wang; J F Fallon; P A Beachy
Journal:  Cell       Date:  2000-02-18       Impact factor: 41.582

2.  Identification of synergistic signals initiating inner ear development.

Authors:  R K Ladher; K U Anakwe; A L Gurney; G C Schoenwolf; P H Francis-West
Journal:  Science       Date:  2000-12-08       Impact factor: 47.728

Review 3.  The role of the hindbrain in patterning of the otocyst.

Authors:  Daniel Choo
Journal:  Dev Biol       Date:  2007-06-02       Impact factor: 3.582

4.  Crystal structure analysis reveals how the Chordin family member crossveinless 2 blocks BMP-2 receptor binding.

Authors:  Jin-Li Zhang; Li-Yan Qiu; Alexander Kotzsch; Stella Weidauer; Lucy Patterson; Matthias Hammerschmidt; Walter Sebald; Thomas D Mueller
Journal:  Dev Cell       Date:  2008-05       Impact factor: 12.270

5.  Role of bone morphogenetic proteins on cochlear hair cell formation: analyses of Noggin and Bmp2 mutant mice.

Authors:  Chan Ho Hwang; Dayong Guo; Marie A Harris; Omar Howard; Yuji Mishina; Lin Gan; Stephen E Harris; Doris K Wu
Journal:  Dev Dyn       Date:  2010-02       Impact factor: 3.780

6.  Disruption of fibroblast growth factor receptor 3 signaling results in defects in cellular differentiation, neuronal patterning, and hearing impairment.

Authors:  Chandrakala Puligilla; Feng Feng; Kotaro Ishikawa; Stefano Bertuzzi; Alain Dabdoub; Andrew J Griffith; Bernd Fritzsch; Matthew W Kelley
Journal:  Dev Dyn       Date:  2007-07       Impact factor: 3.780

7.  Sox2 is required for sensory organ development in the mammalian inner ear.

Authors:  Amy E Kiernan; Anna L Pelling; Keith K H Leung; Anna S P Tang; Donald M Bell; Charles Tease; Robin Lovell-Badge; Karen P Steel; Kathryn S E Cheah
Journal:  Nature       Date:  2005-04-21       Impact factor: 49.962

8.  Effect of the notochord on proliferation and differentiation in the neural tube of the chick embryo.

Authors:  H W van Straaten; J W Hekking; J P Beursgens; E Terwindt-Rouwenhorst; J Drukker
Journal:  Development       Date:  1989-12       Impact factor: 6.868

9.  Competence, specification and commitment in otic placode induction.

Authors:  A K Groves; M Bronner-Fraser
Journal:  Development       Date:  2000-08       Impact factor: 6.868

10.  Differentiation of the lateral compartment of the cochlea requires a temporally restricted FGF20 signal.

Authors:  Sung-Ho Huh; Jennifer Jones; Mark E Warchol; David M Ornitz
Journal:  PLoS Biol       Date:  2012-01-03       Impact factor: 8.029
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  126 in total

Review 1.  Gene expression profiling of the inner ear.

Authors:  Thomas Schimmang; Mark Maconochie
Journal:  J Anat       Date:  2015-09-25       Impact factor: 2.610

2.  Members of the BMP, Shh, and FGF morphogen families promote chicken statoacoustic ganglion neurite outgrowth and neuron survival in vitro.

Authors:  Kristen N Fantetti; Donna M Fekete
Journal:  Dev Neurobiol       Date:  2012-07-20       Impact factor: 3.964

Review 3.  The role of foxi family transcription factors in the development of the ear and jaw.

Authors:  Renée K Edlund; Onur Birol; Andrew K Groves
Journal:  Curr Top Dev Biol       Date:  2015-01-21       Impact factor: 4.897

4.  Slit/Robo signaling mediates spatial positioning of spiral ganglion neurons during development of cochlear innervation.

Authors:  Sheng-zhi Wang; Leena A Ibrahim; Young J Kim; Daniel A Gibson; Haiwen C Leung; Wei Yuan; Ke K Zhang; Huizhong W Tao; Le Ma; Li I Zhang
Journal:  J Neurosci       Date:  2013-07-24       Impact factor: 6.167

5.  A spontaneous mouse deletion in Mctp1 uncovers a long-range cis-regulatory region crucial for NR2F1 function during inner ear development.

Authors:  Basile Tarchini; Chantal Longo-Guess; Cong Tian; Abigail L D Tadenev; Nicholas Devanney; Kenneth R Johnson
Journal:  Dev Biol       Date:  2018-09-11       Impact factor: 3.582

6.  Reconstruction of the mouse otocyst and early neuroblast lineage at single-cell resolution.

Authors:  Robert Durruthy-Durruthy; Assaf Gottlieb; Byron H Hartman; Jörg Waldhaus; Roman D Laske; Russ Altman; Stefan Heller
Journal:  Cell       Date:  2014-04-24       Impact factor: 41.582

Review 7.  Gene, cell, and organ multiplication drives inner ear evolution.

Authors:  Bernd Fritzsch; Karen L Elliott
Journal:  Dev Biol       Date:  2017-09-01       Impact factor: 3.582

Review 8.  The molecular basis of craniofacial placode development.

Authors:  Sunita Singh; Andrew K Groves
Journal:  Wiley Interdiscip Rev Dev Biol       Date:  2016-03-07       Impact factor: 5.814

9.  Transcriptomic analysis of the developing and adult mouse cochlear sensory epithelia.

Authors:  Ibtihel Smeti; Said Assou; Etienne Savary; Saber Masmoudi; Azel Zine
Journal:  PLoS One       Date:  2012-08-10       Impact factor: 3.240

10.  Continued expression of GATA3 is necessary for cochlear neurosensory development.

Authors:  Jeremy S Duncan; Bernd Fritzsch
Journal:  PLoS One       Date:  2013-04-16       Impact factor: 3.240
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