| scholarly article | Q13442814 |
| P356 | DOI | 10.1085/JGP.20028752 |
| P8608 | Fatcat ID | release_ymyo4il6azd3hdy6wi7tdrlwzi |
| P932 | PMC publication ID | 2217333 |
| P698 | PubMed publication ID | 12601087 |
| P5875 | ResearchGate publication ID | 10887757 |
| P50 | author | Bernd Nilius | Q823958 |
| Jean Prenen | Q78273188 | ||
| Thomas Voets | Q40270934 | ||
| P2093 | author name string | Annelies Janssens | |
| Guy Droogmans | |||
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| A single aspartate residue is involved in both intrinsic gating and blockage by Mg2+ of the inward rectifier, IRK1. | Q38306779 | ||
| Store depletion-activated CaT1 currents in rat basophilic leukemia mast cells are inhibited by 2-aminoethoxydiphenyl borate. Evidence for a regulatory component that controls activation of both CaT1 and CRAC (Ca(2+) release-activated Ca(2+) channel) | Q40732066 | ||
| Monovalent cation permeability and Ca(2+) block of the store-operated Ca(2+) current I(CRAC )in rat basophilic leukemia cells | Q40745195 | ||
| CaT1 and the calcium release-activated calcium channel manifest distinct pore properties. | Q40771397 | ||
| Pore properties and ionic block of the rabbit epithelial calcium channel expressed in HEK 293 cells | Q40826229 | ||
| Permeation and gating properties of the novel epithelial Ca(2+) channel | Q40902003 | ||
| Inward rectifier potassium channels | Q41387781 | ||
| Mechanism of ion permeation through calcium channels | Q41560714 | ||
| Control of rectification and permeation by residues in two distinct domains in an inward rectifier K+ channel | Q42279128 | ||
| Potassium channel block by cytoplasmic polyamines as the mechanism of intrinsic rectification | Q42282616 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 245-260 | |
| P577 | publication date | 2003-03-01 | |
| P1433 | published in | The Journal of General Physiology | Q1092259 |
| P1476 | title | Mg2+-dependent gating and strong inward rectification of the cation channel TRPV6. | |
| P478 | volume | 121 |
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| Q24295269 | Ca2+ dependence of the Ca2+-selective TRPV6 channel |
| Q36544044 | Calcium homeostasis in human placenta: role of calcium-handling proteins |
| Q40027986 | Calcium plays a central role in the sensitization of TRPV3 channel to repetitive stimulations |
| Q34020976 | Cellular functions of transient receptor potential channels |
| Q42078363 | Conformational changes of pore helix coupled to gating of TRPV5 by protons |
| Q36296073 | Electrostatic interaction of internal Mg2+ with membrane PIP2 Seen with KCNQ K+ channels |
| Q24656681 | Epithelial Ca2+ entry channels: transcellular Ca2+ transport and beyond |
| Q39762297 | Evidence for the functional involvement of members of the TRP channel family in the uptake of Na(+) and NH4 (+) by the ruminal epithelium |
| Q30514425 | Excision of Trpv6 gene leads to severe defects in epididymal Ca2+ absorption and male fertility much like single D541A pore mutation |
| Q45358086 | Expression of transient receptor potential vanilloid channels TRPV5 and TRPV6 in human blood lymphocytes and Jurkat leukemia T cells |
| Q73435159 | From TRPs to SOCs, CCEs, and CRACs: consensus and controversies |
| Q28592554 | Functional TRPV6 channels are crucial for transepithelial Ca2+ absorption |
| Q36275490 | Functional and Modeling Studies of the Transmembrane Region of the TRPM8 Channel |
| Q38072903 | Gastric acid, calcium absorption, and their impact on bone health |
| Q36119232 | Gating of TRP channels: a voltage connection? |
| Q36678502 | Hydrolysis of phosphatidylinositol 4,5-bisphosphate mediates calcium-induced inactivation of TRPV6 channels. |
| Q46513383 | Identification of a spontaneously active, Na+-permeable channel in guinea pig gallbladder smooth muscle |
| Q41548539 | Integrative Approach with Electrophysiological and Theoretical Methods Reveals a New Role of S4 Positively Charged Residues in PKD2L1 Channel Voltage-Sensing. |
| Q24623493 | International Union of Basic and Clinical Pharmacology. LXXVI. Current progress in the mammalian TRP ion channel family |
| Q35497168 | Intracellular ATP supports TRPV6 activity via lipid kinases and the generation of PtdIns(4,5) P₂. |
| Q40592929 | Intracellular nucleotides and polyamines inhibit the Ca2+-activated cation channel TRPM4b |
| Q36439177 | Ion channels in renal disease. |
| Q34416006 | Ion channels in smooth muscle: regulators of intracellular calcium and contractility. |
| Q40019222 | Isoform-specific inhibition of TRPC4 channel by phosphatidylinositol 4,5-bisphosphate |
| Q38831429 | K+ channel signaling in irradiated tumor cells |
| Q47214679 | Magnesium homeostasis in cattle: absorption and excretion |
| Q46961589 | Magnesium ions prevent the development of hyperkinesia evoked by administration of picrotoxin into the rat neostriatum |
| Q36796790 | Mechanism of urinary calcium regulation by urinary magnesium and pH. |
| Q62661272 | Modulation of TRPs by PIPs |
| Q90322108 | Modulation of the Oxidative Stress and Lipid Peroxidation by Endocannabinoids and Their Lipid Analogues |
| Q37638346 | Molecular Modeling of the Structural and Dynamical Changes in Calcium Channel TRPV5 Induced by the African-Specific A563T Variation |
| Q91967336 | Opening TRPP2 (PKD2L1) requires the transfer of gating charges |
| Q52744137 | Opening of the human epithelial calcium channel TRPV6. |
| Q24300383 | Orai1 is an essential pore subunit of the CRAC channel |
| Q34427051 | Organic cation permeation through the channel formed by polycystin-2. |
| Q40596874 | Outer pore architecture of a Ca2+-selective TRP channel |
| Q34278221 | Outer pore topology of the ECaC-TRPV5 channel by cysteine scan mutagenesis |
| Q36493612 | PIP2 activates TRPV5 and releases its inhibition by intracellular Mg2+. |
| Q33321249 | Parallel selection on TRPV6 in human populations |
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| Q36295697 | Ring of negative charge in BK channels facilitates block by intracellular Mg2+ and polyamines through electrostatics |
| Q39664945 | Selective interference with TRPC3/6 channels disrupts OX1 receptor signalling via NCX and reveals a distinct calcium influx pathway |
| Q40627962 | Store-operated Ca2+ Current and TRPV6 Channels in Lymph Node Prostate Cancer Cells |
| Q89774395 | Structure and function of the calcium-selective TRP channel TRPV6 |
| Q36124582 | Structure-function analysis of TRPV channels |
| Q34089246 | Structure-functional intimacies of transient receptor potential channels |
| Q38111283 | TRP channels |
| Q29615917 | TRP channels as cellular sensors |
| Q36217258 | TRP channels in disease |
| Q36192009 | TRP channels: a TR(I)P through a world of multifunctional cation channels |
| Q92652817 | TRP ion channels: Proteins with conformational flexibility |
| Q30463988 | TRPV channels and vascular function |
| Q34437060 | TRPV5 and TRPV6 in Ca(2+) (re)absorption: regulating Ca(2+) entry at the gate |
| Q37791280 | The Role of Transient Receptor Potential Cation Channels in Ca2+ Signaling |
| Q44125135 | The Xenopus TRPV6 homolog encodes a Mg(2+) -permeant channel that is inhibited by interaction with TRPC1. |
| Q52808795 | The bovine TRPV3 as a pathway for the uptake of Na+, Ca2+, and NH4. |
| Q35647356 | The light-sensitive conductance of melanopsin-expressing Joseph and Hesse cells in amphioxus. |
| Q35135443 | The pore of TRP channels: trivial or neglected? |
| Q38265260 | The transient receptor potential cation channel subfamily V member 6 (TRPV6): genetics, biochemical properties, and functions of exceptional calcium channel proteins |
| Q36177180 | Tonic inhibition of TRPV3 by Mg2+ in mouse epidermal keratinocytes |
| Q46945493 | Topology of the selectivity filter of a TRPV channel: rapid accessibility of contiguous residues from the external medium |
| Q34428913 | Vascular TRP channels: performing under pressure and going with the flow |
| Q28587585 | Voltage dependence of the Ca2+-activated cation channel TRPM4 |
| Q40483917 | Voltage-dependent changes of TRPV6-mediated Ca2+ currents |
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