Papers associated with gja1

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	Connexin 43 expression in glial cells of developing rhombomeres of Xenopus laevis., Katbamna B, Jelaso AM, Ide CF., Int J Dev Neurosci. February 1, 2004; 22 (1): 47-55.
	Characterization of zebrafish Cx43.4 connexin and its channels., Desplantez T, Marics I, Jarry-Guichard T, Veteikis R, Briand JP, Weingart R, Gros D., Exp Physiol. November 1, 2003; 88 (6): 681-90.
	Single-channel SCAM identifies pore-lining residues in the first extracellular loop and first transmembrane domains of Cx46 hemichannels., Kronengold J, Trexler EB, Bukauskas FF, Bargiello TA, Verselis VK., J Gen Physiol. October 1, 2003; 122 (4): 389-405.
	Nkx2.5 homeoprotein regulates expression of gap junction protein connexin 43 and sarcomere organization in postnatal cardiomyocytes., Kasahara H, Ueyama T, Wakimoto H, Liu MK, Maguire CT, Converso KL, Kang PM, Manning WJ, Lawitts J, Paul DL, Berul CI, Izumo S., J Mol Cell Cardiol. March 1, 2003; 35 (3): 243-56.
	Multiple connexins contribute to intercellular communication in the Xenopus embryo., Landesman Y, Postma FR, Goodenough DA, Paul DL., J Cell Sci. January 1, 2003; 116 (Pt 1): 29-38.
	Role of the carboxyl terminal of connexin43 in transjunctional fast voltage gating., Moreno AP, Chanson M, Elenes S, Anumonwo J, Scerri I, Gu H, Taffet SM, Delmar M., Circ Res. March 8, 2002; 90 (4): 450-7.
	Function of the voltage gate of gap junction channels: selective exclusion of molecules., Qu Y, Dahl G., Proc Natl Acad Sci U S A. January 22, 2002; 99 (2): 697-702.
	Connexin43 expression during Xenopus development., van der Heyden MA, Roeleveld L, Peterson J, Destrée OH., Mech Dev. October 1, 2001; 108 (1-2): 217-20.
	trans-dominant inhibition of connexin-43 by mutant connexin-26: implications for dominant connexin disorders affecting epidermal differentiation., Rouan F, White TW, Brown N, Taylor AM, Lucke TW, Paul DL, Munro CS, Uitto J, Hodgins MB, Richard G., J Cell Sci. June 1, 2001; 114 (Pt 11): 2105-13.
	The carboxyl terminal domain regulates the unitary conductance and voltage dependence of connexin40 gap junction channels., Anumonwo JM, Taffet SM, Gu H, Chanson M, Moreno AP, Delmar M., Circ Res. April 13, 2001; 88 (7): 666-73.
	Regulated expression of the X. tropicalis connexin43 promoter., Van der Heyden MA, Roeleveld L, Reneman S, Peterson J, Destrée OH., Cell Commun Adhes. January 1, 2001; 8 (4-6): 293-8.
	Molecular determinants of membrane potential dependence in vertebrate gap junction channels., Revilla A, Bennett MV, Barrio LC., Proc Natl Acad Sci U S A. December 19, 2000; 97 (26): 14760-5.
	The first extracellular loop domain is a major determinant of charge selectivity in connexin46 channels., Trexler EB, Bukauskas FF, Kronengold J, Bargiello TA, Verselis VK., Biophys J. December 1, 2000; 79 (6): 3036-51.
	Molecular and functional diversity of neural connexins in the retina., Dermietzel R, Kremer M, Paputsoglu G, Stang A, Skerrett IM, Gomes D, Srinivas M, Janssen-Bienhold U, Weiler R, Nicholson BJ, Bruzzone R, Spray DC., J Neurosci. November 15, 2000; 20 (22): 8331-43.
	Stoichiometry of transjunctional voltage-gating polarity reversal by a negative charge substitution in the amino terminus of a connexin32 chimera., Oh S, Abrams CK, Verselis VK, Bargiello TA., J Gen Physiol. July 1, 2000; 116 (1): 13-31.
	UltraRapid communication : coexpression of connexins 40 and 43 enhances the pH sensitivityof gap junctions: A model for synergistic interactions among connexins, Gu H, Ek-Vitorin JF, Taffet SM, Delmar M., Circ Res. May 26, 2000; 86 (10): 1100.
	Coexpression of connexins 40 and 43 enhances the pH sensitivity of gap junctions: a model for synergistic interactions among connexins., Gu H, Ek-Vitorin JF, Taffet SM, Delmar M., Circ Res. May 26, 2000; 86 (10): E98-E103.
	Gap junction-mediated transfer of left-right patterning signals in the early chick blastoderm is upstream of Shh asymmetry in the node., Levin M, Mercola M., Development. November 1, 1999; 126 (21): 4703-14.
	Molecular dissection of transjunctional voltage dependence in the connexin-32 and connexin-43 junctions., Revilla A, Castro C, Barrio LC., Biophys J. September 1, 1999; 77 (3): 1374-83.
	Functional characteristics of skate connexin35, a member of the gamma subfamily of connexins expressed in the vertebrate retina., White TW, Deans MR, O'Brien J, Al-Ubaidi MR, Goodenough DA, Ripps H, Bruzzone R., Eur J Neurosci. June 1, 1999; 11 (6): 1883-90.
	Hetero-domain interactions as a mechanism for the regulation of connexin channels., Stergiopoulos K, Alvarado JL, Mastroianni M, Ek-Vitorin JF, Taffet SM, Delmar M., Circ Res. May 28, 1999; 84 (10): 1144-55.
	Rapid and direct effects of pH on connexins revealed by the connexin46 hemichannel preparation., Trexler EB, Bukauskas FF, Bennett MV, Bargiello TA, Verselis VK., J Gen Physiol. May 1, 1999; 113 (5): 721-42.
	Dissection of the molecular basis of pp60(v-src) induced gating of connexin 43 gap junction channels., Zhou L, Kasperek EM, Nicholson BJ., J Cell Biol. March 8, 1999; 144 (5): 1033-45.
	Biological functions of connexin genes revealed by human genetic defects, dominant negative approaches and targeted deletions in the mouse., Willecke K, Kirchhoff S, Plum A, Temme A, Thönnissen E, Ott T., Novartis Found Symp. January 1, 1999; 219 76-88; discussion 88-96.
	Connexin diversity and gap junction regulation by pHi., Francis D, Stergiopoulos K, Ek-Vitorín JF, Cao FL, Taffet SM, Delmar M., Dev Genet. January 1, 1999; 24 (1-2): 123-36.
	Gap junctions are involved in the early generation of left-right asymmetry., Levin M, Mercola M., Dev Biol. November 1, 1998; 203 (1): 90-105.
	Cx43 gap junctions in cardiac development., Lo CW, Wessels A., Trends Cardiovasc Med. August 1, 1998; 8 (6): 264-9.
	A particle-receptor model for the insulin-induced closure of connexin43 channels., Homma N, Alvarado JL, Coombs W, Stergiopoulos K, Taffet SM, Lau AF, Delmar M., Circ Res. July 13, 1998; 83 (1): 27-32.
	Identification of connexin43 as a functional target for Wnt signalling., van der Heyden MA, Rook MB, Hermans MM, Rijksen G, Boonstra J, Defize LH, Destrée OH., J Cell Sci. June 1, 1998; 111 ( Pt 12) 1741-9.
	A 17mer peptide interferes with acidification-induced uncoupling of connexin43., Calero G, Kanemitsu M, Taffet SM, Lau AF, Delmar M., Circ Res. May 18, 1998; 82 (9): 929-35.
	Assembly of chimeric connexin-aequorin proteins into functional gap junction channels. Reporting intracellular and plasma membrane calcium environments., Martin PE, George CH, Castro C, Kendall JM, Capel J, Campbell AK, Revilla A, Barrio LC, Evans WH., J Biol Chem. January 16, 1998; 273 (3): 1719-26.
	Expression of major gap junction connexin types in the working myocardium of eight chordates., Becker DL, Cook JE, Davies CS, Evans WH, Gourdie RG., Cell Biol Int. January 1, 1998; 22 (7-8): 527-43.
	Two molecular models of initial left-right asymmetry generation., Levin M, Nascone N., Med Hypotheses. November 1, 1997; 49 (5): 429-35.
	Structure of connexin43 and its regulation by pHi., Morley GE, Ek-Vitorín JF, Taffet SM, Delmar M., J Cardiovasc Electrophysiol. August 1, 1997; 8 (8): 939-51.
	A chimeric connexin forming gap junction hemichannels., Pfahnl A, Zhou XW, Werner R, Dahl G., Pflugers Arch. April 1, 1997; 433 (6): 773-9.
	PH regulation of connexin43: molecular analysis of the gating particle., Ek-Vitorín JF, Calero G, Morley GE, Coombs W, Taffet SM, Delmar M., Biophys J. September 1, 1996; 71 (3): 1273-84.
	A role for an inhibitory connexin in testis?, Chang M, Werner R, Dahl G., Dev Biol. April 10, 1996; 175 (1): 50-6.
	Intramolecular interactions mediate pH regulation of connexin43 channels., Morley GE, Taffet SM, Delmar M., Biophys J. March 1, 1996; 70 (3): 1294-302.
	Functional characterization of canine connexin45., Steiner E, Ebihara L., J Membr Biol. March 1, 1996; 150 (2): 153-61.
	P2Z purinoceptors., Hickman SE, Semrad CE, Silverstein SC., Ciba Found Symp. January 1, 1996; 198 71-83; discussion 83-90.
	Changes in lens connexin expression lead to increased gap junctional voltage dependence and conductance., Donaldson PJ, Dong Y, Roos M, Green C, Goodenough DA, Kistler J., Am J Physiol. September 1, 1995; 269 (3 Pt 1): C590-600.
	Functional analysis of selective interactions among rodent connexins., White TW, Paul DL, Goodenough DA, Bruzzone R., Mol Biol Cell. April 1, 1995; 6 (4): 459-70.
	Expression of a dominant negative inhibitor of intercellular communication in the early Xenopus embryo causes delamination and extrusion of cells., Paul DL, Yu K, Bruzzone R, Gimlich RL, Goodenough DA., Development. February 1, 1995; 121 (2): 371-81.
	Role of histidine 95 on pH gating of the cardiac gap junction protein connexin43., Ek JF, Delmar M, Perzova R, Taffet SM., Circ Res. June 1, 1994; 74 (6): 1058-64.
	Selective interactions among the multiple connexin proteins expressed in the vertebrate lens: the second extracellular domain is a determinant of compatibility between connexins., White TW, Bruzzone R, Wolfram S, Paul DL, Goodenough DA., J Cell Biol. May 1, 1994; 125 (4): 879-92.
	Expression of chimeric connexins reveals new properties of the formation and gating behavior of gap junction channels., Bruzzone R, White TW, Paul DL., J Cell Sci. April 1, 1994; 107 ( Pt 4) 955-67.
	Multisubunit assembly of an integral plasma membrane channel protein, gap junction connexin43, occurs after exit from the ER., Musil LS, Goodenough DA., Cell. September 24, 1993; 74 (6): 1065-77.
	A structural basis for the unequal sensitivity of the major cardiac and liver gap junctions to intracellular acidification: the carboxyl tail length., Liu S, Taffet S, Stoner L, Delmar M, Vallano ML, Jalife J., Biophys J. May 1, 1993; 64 (5): 1422-33.
	Connexin40, a component of gap junctions in vascular endothelium, is restricted in its ability to interact with other connexins., Bruzzone R, Haefliger JA, Gimlich RL, Paul DL., Mol Biol Cell. January 1, 1993; 4 (1): 7-20.
	Molecular cloning and functional expression of mouse connexin40, a second gap junction gene preferentially expressed in lung., Hennemann H, Suchyna T, Lichtenberg-Fraté H, Jungbluth S, Dahl E, Schwarz J, Nicholson BJ, Willecke K., J Cell Biol. June 1, 1992; 117 (6): 1299-310.

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