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Literature DB >> 11146276

Human diseases: clues to cracking the connexin code?

Abstract

The vertebrate gap junctions formed by the connexin family of transmembrane proteins came to the attention of geneticists in 1993 with the identification of mutations linked to a form of demyelinating neuropathy. Since then, several other genetic disorders have been linked to mutations in specific connexin genes. Also, different diseases can result from different mutations in the same connexin gene. In addition, specific connexin knockout mice have surprising phenotypes. This is leading cell biologists to look afresh at connexins and their involvement in intercellular communication through gap junctions, a process that seems central to coordinating cell function within tissues. Here, we comment on how genetic studies are giving a new impetus to the cell biology of gap junctions.

Entities: Disease Species

Mesh：

Substances：
Connexins

Year: 2001 PMID： 11146276 DOI： 10.1016/s0962-8924(00)01866-3

Source DB: PubMed Journal: Trends Cell Biol ISSN： 0962-8924 Impact factor: 20.808

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Cited

20 in total

1. Gold nanoparticle-mediated (GNOME) laser perforation: a new method for a high-throughput analysis of gap junction intercellular coupling.

Authors: Daniela Begandt; Almke Bader; Georgios C Antonopoulos; Markus Schomaker; Stefan Kalies; Heiko Meyer; Tammo Ripken; Anaclet Ngezahayo
Journal: J Bioenerg Biomembr Date: 2015-08-27 Impact factor: 2.945

2. Androgen-regulated formation and degradation of gap junctions in androgen-responsive human prostate cancer cells.

Authors: Shalini Mitra; Lakshmanan Annamalai; Souvik Chakraborty; Kristen Johnson; Xiao-Hong Song; Surinder K Batra; Parmender P Mehta
Journal: Mol Biol Cell Date: 2006-10-18 Impact factor: 4.138

3. Changes in cytochemistry of sensory and nonsensory cells in gentamicin-treated cochleas.

Authors: Shun-Ichi Imamura; Joe C Adams
Journal: J Assoc Res Otolaryngol Date: 2003-06

4. Mechanical stimulation-induced calcium wave propagation in cell monolayers: the example of bovine corneal endothelial cells.

Authors: Catheleyne D'hondt; Bernard Himpens; Geert Bultynck
Journal: J Vis Exp Date: 2013-07-16 Impact factor: 1.355

5. A novel N14Y mutation in Connexin26 in keratitis-ichthyosis-deafness syndrome: analyses of altered gap junctional communication and molecular structure of N terminus of mutated Connexin26.

Authors: Ken Arita; Masashi Akiyama; Tomoyasu Aizawa; Yoshitaka Umetsu; Ikuo Segawa; Maki Goto; Daisuke Sawamura; Makoto Demura; Keiichi Kawano; Hiroshi Shimizu
Journal: Am J Pathol Date: 2006-08 Impact factor: 4.307

6. A nonsense mutation in the first transmembrane domain of connexin 43 underlies autosomal recessive oculodentodigital syndrome.

Authors: R J Richardson; S Joss; S Tomkin; M Ahmed; E Sheridan; M J Dixon
Journal: J Med Genet Date: 2006-07 Impact factor: 6.318

7. The gap junction as a "Biological Rosetta Stone": implications of evolution, stem cells to homeostatic regulation of health and disease in the Barker hypothesis.

Authors: James E Trosko
Journal: J Cell Commun Signal Date: 2010-12-09 Impact factor: 5.782

8. Investigation of connexin 43 uncoupling and prolongation of the cardiac QRS complex in preclinical and marketed drugs.

Authors: M P Burnham; P M Sharpe; C Garner; R Hughes; C E Pollard; J Bowes
Journal: Br J Pharmacol Date: 2014-08-13 Impact factor: 8.739

9. EKV mutant connexin 31 associated cell death is mediated by ER stress.

Authors: Daniel Tattersall; Claire A Scott; Colin Gray; Daniel Zicha; David P Kelsell
Journal: Hum Mol Genet Date: 2009-09-14 Impact factor: 6.150

10. Modulatory effects of cAMP and PKC activation on gap junctional intercellular communication among thymic epithelial cells.

Authors: Oscar K Nihei; Paula C Fonseca; Nara M Rubim; Andre G Bonavita; Jurandy S P O Lyra; Sandra Neves-dos-Santos; Antonio C Campos de Carvalho; David C Spray; Wilson Savino; Luiz A Alves
Journal: BMC Cell Biol Date: 2010-01-15 Impact factor: 4.241