scholarly article | Q13442814 |
P356 | DOI | 10.1074/JBC.M205348200 |
P698 | PubMed publication ID | 12154091 |
P2093 | author name string | Amos Baruch | |
Ben N G Giepmans | |||
Nalin M Kumar | |||
Derek L Beahm | |||
James E Hall | |||
Peter A Nielsen | |||
P2860 | cites work | FASEB Journal | Q520194 |
Molecular cloning and functional expression of human connexin37, an endothelial cell gap junction protein | Q24308023 | ||
The gap junction protein connexin43 interacts with the second PDZ domain of the zona occludens-1 protein | Q24324462 | ||
Molecular cloning of two human cardiac gap junction proteins, connexin40 and connexin45 | Q24337362 | ||
Gapped BLAST and PSI-BLAST: a new generation of protein database search programs | Q24545170 | ||
PDZ domains: fundamental building blocks in the organization of protein complexes at the plasma membrane | Q24563377 | ||
Direct association of occludin with ZO-1 and its possible involvement in the localization of occludin at tight junctions | Q24672971 | ||
Direct binding of three tight junction-associated MAGUKs, ZO-1, ZO-2, and ZO-3, with the COOH termini of claudins | Q24682136 | ||
Induction of tight junctions in human connexin 32 (hCx32)-transfected mouse hepatocytes: connexin 32 interacts with occludin | Q28139215 | ||
Molecular cloning and functional expression of the mouse gap junction gene connexin-57 in human HeLa cells | Q28511796 | ||
Molecular cloning and expression of rat connexin40, a gap junction protein expressed in vascular smooth muscle | Q28576274 | ||
Initiation of translation in prokaryotes and eukaryotes | Q29618237 | ||
Identification of a novel marker for primordial smooth muscle and its differential expression pattern in contractile vs noncontractile cells | Q30442152 | ||
c-Src regulates the interaction between connexin-43 and ZO-1 in cardiac myocytes | Q31465510 | ||
Cloning of a new gap junction gene (Cx36) highly expressed in mammalian brain neurons. | Q32014727 | ||
Connexin45 directly binds to ZO-1 and localizes to the tight junction region in epithelial MDCK cells. | Q33289368 | ||
Protein modules as organizers of membrane structure | Q33712466 | ||
Differential regulation of the levels of three gap junction mRNAs in Xenopus embryos | Q33892406 | ||
Structural and functional diversity of connexin genes in the mouse and human genome | Q34137753 | ||
Hemichannel and junctional properties of connexin 50. | Q34177646 | ||
The sleep-inducing lipid oleamide deconvolutes gap junction communication and calcium wave transmission in glial cells | Q36255026 | ||
Equilibrium properties of a voltage-dependent junctional conductance. | Q36408460 | ||
Gap junctions formed by connexins 26 and 32 alone and in combination are differently affected by applied voltage | Q37597418 | ||
Multiple CArG boxes in the human cardiac actin gene promoter required for expression in embryonic cardiac muscle cells developing in vitro from embryonal carcinoma cells | Q40640584 | ||
Gap junction protein connexin-43 interacts directly with microtubules | Q40781090 | ||
Connexin43 and connexin45 form gap junctions with different molecular permeabilities in osteoblastic cells. | Q40790848 | ||
Interaction of c-Src with gap junction protein connexin-43. Role in the regulation of cell-cell communication | Q40836348 | ||
The gap junction communication channel | Q40974984 | ||
Direct association of the gap junction protein connexin-43 with ZO-1 in cardiac myocytes | Q41040418 | ||
Intercellular calcium signaling via gap junction in connexin-43-transfected cells | Q41070032 | ||
Gap junctions in vascular tissues. Evaluating the role of intercellular communication in the modulation of vasomotor tone | Q41131184 | ||
Selective dye and ionic permeability of gap junction channels formed by connexin45. | Q41447273 | ||
Specific permeability and selective formation of gap junction channels in connexin-transfected HeLa cells | Q41665390 | ||
Mouse connexin 45: genomic cloning and exon usage | Q73595261 | ||
Connexin45 interacts with zonula occludens-1 and connexin43 in osteoblastic cells | Q73785250 | ||
Isoform composition of connexin channels determines selectivity among second messengers and uncharged molecules | Q74105884 | ||
Unique and shared functions of different connexins in mice | Q74342558 | ||
Human reserve pluripotent mesenchymal stem cells are present in the connective tissues of skeletal muscle and dermis derived from fetal, adult, and geriatric donors | Q74373862 | ||
P433 | issue | 41 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | gap junction assembly | Q15330538 |
Gap junction protein delta 3 | Q21113170 | ||
Gap junction protein, delta 3 | Q21981542 | ||
P304 | page(s) | 38272-83 | |
P577 | publication date | 2002-10-11 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Molecular cloning, functional expression, and tissue distribution of a novel human gap junction-forming protein, connexin-31.9. Interaction with zona occludens protein-1 | |
P478 | volume | 277 |
Q35609932 | An update on connexin genes and their nomenclature in mouse and man. |
Q28582084 | Association of connexin36 and zonula occludens-1 with zonula occludens-2 and the transcription factor zonula occludens-1-associated nucleic acid-binding protein at neuronal gap junctions in rodent retina |
Q40488891 | Association of connexin36 with zonula occludens-1 in HeLa cells, betaTC-3 cells, pancreas, and adrenal gland |
Q34492272 | Association with ZO-1 correlates with plasma membrane partitioning in truncated connexin45 mutants |
Q27322751 | Connexin 30 expression inhibits growth of human malignant gliomas but protects them against radiation therapy |
Q43122664 | Connexin 43 gap junction plaque endocytosis implies molecular remodelling of ZO-1 and c-Src partners |
Q28582860 | Connexin 43 interacts with zona occludens-1 and -2 proteins in a cell cycle stage-specific manner |
Q36630537 | Connexin-mediated cardiac impulse propagation: connexin 30.2 slows atrioventricular conduction in mouse heart |
Q34596202 | Connexin30.2 containing gap junction channels decelerate impulse propagation through the atrioventricular node |
Q33894616 | Connexin43 PDZ2 binding domain mutants create functional gap junctions and exhibit altered phosphorylation |
Q24655949 | Connexin45-containing neuronal gap junctions in rodent retina also contain connexin36 in both apposing hemiplaques, forming bihomotypic gap junctions, with scaffolding contributed by zonula occludens-1 |
Q30499651 | Connexin47, connexin29 and connexin32 co-expression in oligodendrocytes and Cx47 association with zonula occludens-1 (ZO-1) in mouse brain |
Q47770967 | Connexins in Cardiovascular and Neurovascular Health and Disease: Pharmacological Implications |
Q24644902 | Cx30.2 can form heteromeric gap junction channels with other cardiac connexins |
Q37090060 | Cx36 makes channels coupling human pancreatic beta-cells, and correlates with insulin expression |
Q35579792 | Cx50 requires an intact PDZ-binding motif and ZO-1 for the formation of functional intercellular channels |
Q28505618 | Differences in expression patterns between mouse connexin-30.2 (Cx30.2) and its putative human orthologue, connexin-31.9 |
Q37412670 | Discovering the molecular components of intercellular junctions--a historical view. |
Q28586647 | Functional properties of mouse connexin30.2 expressed in the conduction system of the heart |
Q92165080 | Gap Junction Channels of Innexins and Connexins: Relations and Computational Perspectives |
Q35842812 | High-resolution proteomic mapping in the vertebrate central nervous system: close proximity of connexin35 to NMDA glutamate receptor clusters and co-localization of connexin36 with immunoreactivity for zonula occludens protein-1 (ZO-1) |
Q28117683 | Human connexin31.9, unlike its orthologous protein connexin30.2 in the mouse, is not detectable in the human cardiac conduction system |
Q92783626 | Improved multiparametric scrape loading-dye transfer assay for a simultaneous high-throughput analysis of gap junctional intercellular communication, cell density and viability |
Q24679811 | Lens connexins alpha3Cx46 and alpha8Cx50 interact with zonula occludens protein-1 (ZO-1) |
Q35653077 | Neuronal connexin36 association with zonula occludens-1 protein (ZO-1) in mouse brain and interaction with the first PDZ domain of ZO-1. |
Q30493596 | Permeability of homotypic and heterotypic gap junction channels formed of cardiac connexins mCx30.2, Cx40, Cx43, and Cx45. |
Q81595526 | Phylogenetic analysis of three complete gap junction gene families reveals lineage-specific duplications and highly supported gene classes |
Q33856936 | Physiological and physiopathological aspects of connexins and communicating gap junctions in spermatogenesis |
Q36828937 | Polarity proteins as regulators of cell junction complexes: implications for breast cancer |
Q24548349 | Properties of mouse connexin 30.2 and human connexin 31.9 hemichannels: implications for atrioventricular conduction in the heart |
Q36402052 | Protein kinase A mediates regulation of gap junctions containing connexin35 through a complex pathway. |
Q37158482 | Proteins and mechanisms regulating gap-junction assembly, internalization, and degradation |
Q37338603 | Reciprocal influence of connexins and apical junction proteins on their expressions and functions |
Q37003670 | The CRAC channel consists of a tetramer formed by Stim-induced dimerization of Orai dimers |
Q35629419 | The connexin43 carboxyl terminus and cardiac gap junction organization |
Q40367325 | The detection of hamster connexins: a comparison of expression profiles with wild-type mouse and the cancer-prone Min mouse |
Q36667280 | The unstoppable connexin43 carboxyl-terminus: new roles in gap junction organization and wound healing |
Q44062699 | ZO-1 regulates Erk, Smad1/5/8, Smad2, and RhoA activities to modulate self-renewal and differentiation of mouse embryonic stem cells |
Q30481617 | Zebrafish early cardiac connexin, Cx36.7/Ecx, regulates myofibril orientation and heart morphogenesis by establishing Nkx2.5 expression |
Q34148181 | Zonula occludens-1 alters connexin43 gap junction size and organization by influencing channel accretion |
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