scholarly article | Q13442814 |
P2093 | author name string | Vytas K Verselis | |
Miduturu Srinivas | |||
Jack Kronengold | |||
P2860 | cites work | Cross-presentation by intercellular peptide transfer through gap junctions. | Q40451404 |
Charges dispersed over the permeation pathway determine the charge selectivity and conductance of a Cx32 chimeric hemichannel | Q42649575 | ||
Role of the carboxyl terminal of connexin43 in transjunctional fast voltage gating | Q42671777 | ||
Connexin mutations causing skin disease and deafness increase hemichannel activity and cell death when expressed in Xenopus oocytes. | Q48735734 | ||
Opposite voltage gating polarities of two closely related connexins | Q49110748 | ||
Selectivity of connexin-specific gap junctions does not correlate with channel conductance. | Q52204658 | ||
Voltage dependence of macroscopic and unitary currents of gap junction channels formed by mouse connexin50 expressed in rat neuroblastoma cells. | Q52212887 | ||
GJB2mutations in keratitis-ichthyosis-deafness syndrome including its fatal form | Q57637012 | ||
Connexin-specific cell-to-cell transfer of short interfering RNA by gap junctions | Q59212248 | ||
Substituted-cysteine accessibility method | Q77121562 | ||
Structure of the connexin 26 gap junction channel at 3.5 A resolution | Q27654539 | ||
Gating properties of gap junction channels assembled from connexin43 and connexin43 fused with green fluorescent protein | Q28367650 | ||
Emerging issues of connexin channels: biophysics fills the gap. | Q30167614 | ||
Conductance of connexin hemichannels segregates with the first transmembrane segment | Q30476801 | ||
Post-translational modifications of connexin26 revealed by mass spectrometry | Q33506159 | ||
Identification of a pore lining segment in gap junction hemichannels. | Q33915360 | ||
Differentially altered Ca2+ regulation and Ca2+ permeability in Cx26 hemichannels formed by the A40V and G45E mutations that cause keratitis ichthyosis deafness syndrome | Q33950693 | ||
Structural and functional diversity of connexin genes in the mouse and human genome | Q34137753 | ||
The role of a conserved proline residue in mediating conformational changes associated with voltage gating of Cx32 gap junctions | Q34170537 | ||
Reversal of the gating polarity of gap junctions by negative charge substitutions in the N-terminus of connexin 32 | Q34174229 | ||
The first extracellular loop domain is a major determinant of charge selectivity in connexin46 channels | Q34174541 | ||
The permeability of gap junction channels to probes of different size is dependent on connexin composition and permeant-pore affinities | Q34186774 | ||
Exchange of gating properties between rat cx46 and chicken cx45.6. | Q34187324 | ||
Correlative studies of gating in Cx46 and Cx50 hemichannels and gap junction channels | Q34189343 | ||
Gap junctions: new tools, new answers, new questions | Q34778703 | ||
Formation of the gap junction nexus: binding partners for connexins | Q35006304 | ||
Structural determinants for the differences in voltage gating of chicken Cx56 and Cx45.6 gap-junctional hemichannels | Q35012370 | ||
Molecular dynamics simulations of the Cx26 hemichannel: evaluation of structural models with Brownian dynamics | Q35503280 | ||
Gap junction channel gating | Q35700096 | ||
Selective permeability of gap junction channels | Q35700130 | ||
Pore-lining residues identified by single channel SCAM studies in Cx46 hemichannels | Q35892064 | ||
Identification of amino acid residues lining the pore of a gap junction channel | Q36323688 | ||
Kinetic properties of a voltage-dependent junctional conductance | Q36408444 | ||
Equilibrium properties of a voltage-dependent junctional conductance. | Q36408460 | ||
Single-channel SCAM identifies pore-lining residues in the first extracellular loop and first transmembrane domains of Cx46 hemichannels | Q36445008 | ||
The gap junction cellular internet: connexin hemichannels enter the signalling limelight | Q36500579 | ||
Loop gating of connexin hemichannels involves movement of pore-lining residues in the first extracellular loop domain | Q37094208 | ||
Voltage gating and permeation in a gap junction hemichannel | Q37558064 | ||
Mouse Cx50, a functional member of the connexin family of gap junction proteins, is the lens fiber protein MP70 | Q40241212 | ||
P433 | issue | 8 | |
P921 | main subject | voltage | Q25428 |
P1104 | number of pages | 11 | |
P304 | page(s) | 453-463 | |
P577 | publication date | 2012-07-24 | |
P1433 | published in | Journal of Membrane Biology | Q6295550 |
P1476 | title | The N-terminal half of the connexin protein contains the core elements of the pore and voltage gates | |
P478 | volume | 245 |
Q27002992 | Aberrant Cx26 hemichannels and keratitis-ichthyosis-deafness syndrome: insights into syndromic hearing loss |
Q41946636 | Aberrant connexin26 hemichannels underlying keratitis-ichthyosis-deafness syndrome are potently inhibited by mefloquine |
Q42021715 | Carbon Monoxide Modulates Connexin Function through a Lipid Peroxidation-Dependent Process: A Hypothesis |
Q34774559 | Carbon monoxide (CO) is a novel inhibitor of connexin hemichannels |
Q38511008 | Carbon monoxide: A new player in the redox regulation of connexin hemichannels. |
Q42183057 | Characterization of a novel water pocket inside the human Cx26 hemichannel structure |
Q42408378 | Charged Residues at the First Transmembrane Region Contribute to the Voltage Dependence of the Slow Gate of Connexins. |
Q21129235 | Connexin and Pannexin hemichannels are regulated by redox potential |
Q38099907 | Connexin channel modulators and their mechanisms of action |
Q50057056 | Connexin hemichannels and cochlear function |
Q38805573 | Determinants of Cx43 Channel Gating and Permeation: The Amino Terminus |
Q38910519 | Extracellular Cysteine in Connexins: Role as Redox Sensors. |
Q26829380 | Functional analysis and regulation of purified connexin hemichannels |
Q37575363 | Functional effects of Cx50 mutations associated with congenital cataracts. |
Q38175394 | Functional roles of the amino terminal domain in determining biophysical properties of Cx50 gap junction channels |
Q37493164 | Mechanism of gating by calcium in connexin hemichannels |
Q38263990 | Mind the gap: connexins and cell-cell communication in the diabetic kidney. |
Q26865742 | Motifs in the permeation pathway of connexin channels mediate voltage and Ca (2+) sensing |
Q37199244 | Neurological manifestations of oculodentodigital dysplasia: a Cx43 channelopathy of the central nervous system? |
Q47689866 | Permeant-specific gating of connexin 30 hemichannels |
Q36836123 | Properties of two cataract-associated mutations located in the NH2 terminus of connexin 46. |
Q37158482 | Proteins and mechanisms regulating gap-junction assembly, internalization, and degradation |
Q48611494 | Role of amino terminus in voltage gating and junctional rectification of Shaking B innexins |
Q34398416 | Syndromic and non-syndromic disease-linked Cx43 mutations |
Q89673846 | The Cryo-EM structure of pannexin 1 reveals unique motifs for ion selection and inhibition |
Q93181485 | The amino terminal domain plays an important role in transjunctional voltage-dependent gating kinetics of Cx45 gap junctions |
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