Pages that link to "Q33907194"

The following pages link to Recovery of Ca2+ current, charge movements, and Ca2+ transients in myotubes deficient in dihydropyridine receptor beta 1 subunit transfected with beta 1 cDNA (Q33907194):

Displaying 42 items.

• Functional analysis of a frame-shift mutant of the dihydropyridine receptor pore subunit (alpha1S) expressing two complementary protein fragments (Q24798316) (← links)
• Modulation of L-type Ca2+ current but not activation of Ca2+ release by the gamma1 subunit of the dihydropyridine receptor of skeletal muscle (Q24802046) (← links)
• A component of excitation-contraction coupling triggered in the absence of the T671-L690 and L720-Q765 regions of the II-III loop of the dihydropyridine receptor alpha(1s) pore subunit. (Q28365149) (← links)
• Ca2+ sparks in embryonic mouse skeletal muscle selectively deficient in dihydropyridine receptor alpha1S or beta1a subunits (Q28585470) (← links)
• Mutations of calcium channel beta subunit genes in mice (Q28591424) (← links)
• Functional expression of transgenic 1sDHPR channels in adult mammalian skeletal muscle fibres (Q33801924) (← links)
• The I-II loop of the Ca2+ channel alpha1 subunit contains an endoplasmic reticulum retention signal antagonized by the beta subunit. (Q33892693) (← links)
• Molecular origin of the L-type Ca2+ current of skeletal muscle myotubes selectively deficient in dihydropyridine receptor beta1a subunit (Q34168362) (← links)
• Differential regulation of skeletal muscle L-type Ca2+ current and excitation-contraction coupling by the dihydropyridine receptor beta subunit (Q34170119) (← links)
• Involvement of the carboxy-terminus region of the dihydropyridine receptor beta1a subunit in excitation-contraction coupling of skeletal muscle (Q34171879) (← links)
• Truncation of the carboxyl terminus of the dihydropyridine receptor beta1a subunit promotes Ca2+ dependent excitation-contraction coupling in skeletal myotubes. (Q34180090) (← links)
• Ca2+ current and charge movements in skeletal myotubes promoted by the beta-subunit of the dihydropyridine receptor in the absence of ryanodine receptor type 1. (Q34180386) (← links)
• RyR1/RyR3 chimeras reveal that multiple domains of RyR1 are involved in skeletal-type E-C coupling (Q34180930) (← links)
• Cardiac-type EC-coupling in dysgenic myotubes restored with Ca2+ channel subunit isoforms alpha1C and alpha1D does not correlate with current density (Q34181475) (← links)
• Ca2+-dependent excitation-contraction coupling triggered by the heterologous cardiac/brain DHPR beta2a-subunit in skeletal myotubes (Q34183948) (← links)
• Involvement of a heptad repeat in the carboxyl terminus of the dihydropyridine receptor beta1a subunit in the mechanism of excitation-contraction coupling in skeletal muscle (Q34186764) (← links)
• Interaction between the dihydropyridine receptor Ca2+ channel beta-subunit and ryanodine receptor type 1 strengthens excitation-contraction coupling (Q34244881) (← links)
• Multiple loops of the dihydropyridine receptor pore subunit are required for full-scale excitation-contraction coupling in skeletal muscle (Q34350397) (← links)
• Short-term regulation of excitation-contraction coupling by the beta1a subunit in adult mouse skeletal muscle (Q34352442) (← links)
• Reduced gain of excitation-contraction coupling in triadin-null myotubes is mediated by the disruption of FKBP12/RyR1 interaction (Q34642130) (← links)
• Amino acid residues 489-503 of dihydropyridine receptor (DHPR) β1a subunit are critical for structural communication between the skeletal muscle DHPR complex and type 1 ryanodine receptor (Q34774544) (← links)
• Troponin T3 regulates nuclear localization of the calcium channel Cavβ1a subunit in skeletal muscle (Q35633591) (← links)
• Intramolecular ex vivo Fluorescence Resonance Energy Transfer (FRET) of Dihydropyridine Receptor (DHPR) β1a Subunit Reveals Conformational Change Induced by RYR1 in Mouse Skeletal Myotubes (Q35675419) (← links)
• Association of calcium channel alpha1S and beta1a subunits is required for the targeting of beta1a but not of alpha1S into skeletal muscle triads (Q36063022) (← links)
• The role of auxiliary dihydropyridine receptor subunits in muscle. (Q36222858) (← links)
• Intramembrane charge movements and excitation- contraction coupling expressed by two-domain fragments of the Ca2+ channel. (Q36243264) (← links)
• Functional impact of the ryanodine receptor on the skeletal muscle L-type Ca(2+) channel (Q36444962) (← links)
• Alpha2delta1 dihydropyridine receptor subunit is a critical element for excitation-coupled calcium entry but not for formation of tetrads in skeletal myotubes (Q36510485) (← links)
• Fluorescence Resonance Energy Transfer-based Structural Analysis of the Dihydropyridine Receptor α1S Subunit Reveals Conformational Differences Induced by Binding of the β1a Subunit (Q37034436) (← links)
• Increased CaVbeta1A expression with aging contributes to skeletal muscle weakness (Q37396481) (← links)
• Electrical inhomogeneity in left ventricular hypertrophy (Q38190881) (← links)
• Neuromuscular synaptic patterning requires the function of skeletal muscle dihydropyridine receptors. (Q39569719) (← links)
• Voltage-controlled Ca2+ release and entry flux in isolated adult muscle fibres of the mouse. (Q40470361) (← links)
• Voltage-dependent Ca2+ fluxes in skeletal myotubes determined using a removal model analysis (Q40607291) (← links)
• Proper restoration of excitation-contraction coupling in the dihydropyridine receptor beta1-null zebrafish relaxed is an exclusive function of the beta1a subunit (Q41820912) (← links)
• The triad targeting signal of the skeletal muscle calcium channel is localized in the COOH terminus of the alpha(1S) subunit (Q42057968) (← links)
• Functional and Structural Characterization of a Novel Malignant Hyperthermia-susceptible variant of DHPR-β1a subunit (CACNB1). (Q46169511) (← links)
• Structures and functions of calcium channel beta subunits (Q46459475) (← links)
• Regulation of ion channel expression by cytoplasmic subunits (Q47754288) (← links)
• The beta1a subunit regulates the functional properties of adult frog and mouse L-type Ca2+ channels of skeletal muscle. (Q52027382) (← links)
• Membrane targeting of L-type calcium channels. Role of palmitoylation in the subcellular localization of the beta2a subunit. (Q52531682) (← links)
• Voltage sensing mechanism in skeletal muscle excitation-contraction coupling: coming of age or midlife crisis? (Q90344715) (← links)