| scholarly article | Q13442814 |
| P356 | DOI | 10.1021/BI972803D |
| P698 | PubMed publication ID | 9737879 |
| P2093 | author name string | Furukawa K | |
| Ohizumi Y | |||
| Nakayama H | |||
| Kawano S | |||
| Fujimori H | |||
| Hiraoka M | |||
| Ohkura M | |||
| Kuniyasu A | |||
| Kuruma A | |||
| P433 | issue | 37 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 12987-12993 | |
| P577 | publication date | 1998-09-01 | |
| P1433 | published in | Biochemistry | Q764876 |
| P1476 | title | Dual regulation of the skeletal muscle ryanodine receptor by triadin and calsequestrin | |
| P478 | volume | 37 |
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| Q34352263 | Ablation of Skeletal Muscle Triadin Impairs FKBP12/RyR1 Channel Interactions Essential for Maintaining Resting Cytoplasmic Ca2+ |
| Q37060519 | Altered stored calcium release in skeletal myotubes deficient of triadin and junctin |
| Q37478186 | Ca(2+) signaling in striated muscle: the elusive roles of triadin, junctin, and calsequestrin |
| Q28581416 | Ca2+-regulatory muscle proteins in the alcohol-fed rat |
| Q37566382 | Calcium Homeostasis and Muscle Energy Metabolism Are Modified in HspB1-Null Mice |
| Q43805947 | Calsequestrin binds to monomeric and complexed forms of key calcium-handling proteins in native sarcoplasmic reticulum membranes from rabbit skeletal muscle |
| Q28366867 | Calsequestrin is an inhibitor of skeletal muscle ryanodine receptor calcium release channels |
| Q104111317 | Calsequestrin: a well-known but curious protein in skeletal muscle |
| Q34007314 | Caveolin 3 is associated with the calcium release complex and is modified via in vivo triadin modification |
| Q41823396 | Drastic reduction of sarcalumenin in Dp427 (dystrophin of 427 kDa)-deficient fibres indicates that abnormal calcium handling plays a key role in muscular dystrophy. |
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| Q24291561 | Interaction of HRC (histidine-rich Ca(2+)-binding protein) and triadin in the lumen of sarcoplasmic reticulum |
| Q33877910 | Interaction of triadin with histidine-rich Ca(2+)-binding protein at the triadic junction in skeletal muscle fibers |
| Q24309384 | Junctin - the quiet achiever |
| Q37422708 | Junctin and triadin each activate skeletal ryanodine receptors but junctin alone mediates functional interactions with calsequestrin |
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| Q33927847 | The asp-rich region at the carboxyl-terminus of calsequestrin binds to Ca(2+) and interacts with triadin |
| Q34829628 | The conformation of calsequestrin determines its ability to regulate skeletal ryanodine receptors |
| Q36577673 | The elusive role of store depletion in the control of intracellular calcium release |
| Q43002889 | The random-coil 'C' fragment of the dihydropyridine receptor II-III loop can activate or inhibit native skeletal ryanodine receptors. |
| Q24319842 | The role of calsequestrin, triadin, and junctin in conferring cardiac ryanodine receptor responsiveness to luminal calcium |
| Q50587074 | Three residues in the luminal domain of triadin impact on Trisk 95 activation of skeletal muscle ryanodine receptors. |
| Q28576225 | Triadin (Trisk 95) overexpression blocks excitation-contraction coupling in rat skeletal myotubes |
| Q36296083 | Triadin binding to the C-terminal luminal loop of the ryanodine receptor is important for skeletal muscle excitation contraction coupling |
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| Q26801317 | Triadin regulation of the ryanodine receptor complex |
| Q41975814 | Triadins are not triad-specific proteins: two new skeletal muscle triadins possibly involved in the architecture of sarcoplasmic reticulum |
| Q24290196 | cDNA cloning and characterization of human cardiac junctin |
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