Literature DB >> 18941476

Functional consequences of novel connexin 26 mutations associated with hereditary hearing loss.

Ram Shankar Mani1, Aparna Ganapathy, Rajeev Jalvi, C R Srikumari Srisailapathy, Vikas Malhotra, Shelly Chadha, Arun Agarwal, Arabandi Ramesh, Raghunath Rao Rangasayee, Anuranjan Anand.   

Abstract

In a study of 530 individuals with non-syndromic, sensorineural hearing loss, we identified 18 mutations at connexin 26 (Cx26), four of which are novel (-23G>T, I33T, 377_383dupTCCGCAT, W172R) and the remaining 14 (ivs1+1G>A, M1V, 35delG, W24X, I35S, V37I, R75W, W77X, 312del14, E120del, Q124X, Y136X, R143W, R184P) being mutations previously described. To gain insight into functional consequences of these mutations, cellular localization of the mutant proteins and their ability to permit lucifer yellow transfer between cells was studied in seven of them (W24X, I33T, I35S, R75W, E120del, W172R and R184P). I35S and R184P showed impaired trafficking of the protein to the plasma membrane. I33T, R75W, E120del and W172R showed predominantly membrane localization but did not form functional gap junction channels. Surprisingly, W24X, a protein-truncating mutation, apparently permits formation of a full-length protein, perhaps due to a stop codon read-through mechanism. These results provide further evidence that Cx26 mutations affect gap junction activity by mis-regulation at multiple levels.

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Year:  2008        PMID: 18941476      PMCID: PMC2986212          DOI: 10.1038/ejhg.2008.179

Source DB:  PubMed          Journal:  Eur J Hum Genet        ISSN: 1018-4813            Impact factor:   4.246


  32 in total

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3.  Selection for deafness?

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4.  Rate4Site: an algorithmic tool for the identification of functional regions in proteins by surface mapping of evolutionary determinants within their homologues.

Authors:  Tal Pupko; Rachel E Bell; Itay Mayrose; Fabian Glaser; Nir Ben-Tal
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5.  Low prevalence of Connexin 26 (GJB2) variants in Pakistani families with autosomal recessive non-syndromic hearing impairment.

Authors:  R L P Santos; M Wajid; T L Pham; J Hussan; G Ali; W Ahmad; S M Leal
Journal:  Clin Genet       Date:  2005-01       Impact factor: 4.438

6.  Developmental expression patterns of connexin26 and -30 in the rat cochlea.

Authors:  J Lautermann; H G Frank; K Jahnke; O Traub; E Winterhager
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7.  Properties of connexin26 gap junctional proteins derived from mutations associated with non-syndromal heriditary deafness.

Authors:  P E Martin; S L Coleman; S O Casalotti; A Forge; W H Evans
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8.  Three-dimensional structure of a human connexin26 gap junction channel reveals a plug in the vestibule.

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Journal:  Nat Cell Biol       Date:  2004-12-12       Impact factor: 28.824
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  36 in total

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Review 4.  Two Iranian families with a novel mutation in GJB2 causing autosomal dominant nonsyndromic hearing loss.

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5.  Expert specification of the ACMG/AMP variant interpretation guidelines for genetic hearing loss.

Authors:  Andrea M Oza; Marina T DiStefano; Sarah E Hemphill; Brandon J Cushman; Andrew R Grant; Rebecca K Siegert; Jun Shen; Alex Chapin; Nicole J Boczek; Lisa A Schimmenti; Jaclyn B Murry; Linda Hasadsri; Kiyomitsu Nara; Margaret Kenna; Kevin T Booth; Hela Azaiez; Andrew Griffith; Karen B Avraham; Hannie Kremer; Heidi L Rehm; Sami S Amr; Ahmad N Abou Tayoun
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8.  Characterization of a novel water pocket inside the human Cx26 hemichannel structure.

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9.  GJB2 and GJB6 gene mutations found in Indian probands with congenital hearing impairment.

Authors:  G Padma; P V Ramchander; U V Nandur; T Padma
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10.  The pathological effects of connexin 26 variants related to hearing loss by in silico and in vitro analysis.

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Journal:  Hum Genet       Date:  2016-01-09       Impact factor: 4.132
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