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Query: UNIPROT:P21817 (
RyR1
)
1,154
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The ryanodine receptor is a channel for Ca2+ release from intracellular stores. By PCR analysis, we identified two
alternatively spliced
regions in mRNA of the mouse
skeletal muscle ryanodine receptor
(sRyR). The splice variants were characterized by the presence or absence of 15 bp (ASI) and 18 bp (ASII) exons. The exclusion of these exons results in the absence of the regions corresponding to Ala3481-Gln3485 and Val3865-Asn3870, respectively, of rabbit sRyR; these amino acid sequences exist in the modulatory region, where sites for phosphorylation and binding of Ca2+, calmodulin and ATP are postulated to be. We also detected sRyR in brain and heart as well as in skeletal muscle, and the splicing patterns were found to be tissue-specific. Only the ASII-lacking isoform was detected in heart, whereas in other tissues the ASII-containing isoform was predominant. The splicing patterns were also found to change during development. In skeletal muscle, the ASI-containing isoform increased gradually from embryo to adult. The ASII-lacking isoform abruptly increased upon birth, but the ASII-containing isoform increased steadily afterwards. In cerebrum, the ratio of the ASII-containing isoform to the ASII-lacking one increased abruptly during embryonic days 14 and 18. These findings suggest that the alternative splicing of ASI and ASII, by affecting the modulatory region, generates functionally different sRyR isoforms in a tissue-specific and developmentally regulated manner.
...
PMID:Tissue-specific and developmentally regulated alternative splicing in mouse skeletal muscle ryanodine receptor mRNA. 783 48
The immunophilin, FK506-binding protein (FKBP12), is an essential component of the ryanodine receptor channel complex of skeletal muscle (
RyR1
) and modulates intracellular calcium signaling from the endoplasmic reticulum. The cardiac muscle RyR isoform (RyR2) specifically associates with a distinct FKBP isoform, FKBP12.6. Previous studies have led to the proposal that the central domain of
RyR1
exclusively mediates the interaction with FKBP12. To characterize the topography of the FKBP12.6 binding site on the human cardiac RyR2, we have applied complementary protein-protein interaction methods using both in vivoyeast two-hybrid analysis and in vitroimmunoprecipitation experiments. Our results indicate an absence of interaction of FKBP12/12.6 with fragments containing the central domain of either
RyR1
, RyR2, or RyR3. Furthermore, no interaction was detected between FKBP12.6 with a series of overlapping fragments encompassing the entire RyR2, either individually or in multiple combination. We also found that a distinct,
alternatively spliced
variant of FKBP12.6 was unable to interact with RyR. In contrast, we successfully demonstrated a robust association between the cytoplasmic domain of transforming growth factor-beta receptor type I and both FKBP12 and FKBP12.6 in parallel positive control experiments, as well as between native RyR2 and FKBP12.6. These results suggest that the specific interaction of FKBP12.6 with RyR2, and generally of FKBPs with any RyR isoform, is not readily reconstituted by peptide fragments corresponding to central RyR domains. Further structural analysis will be necessary to unravel this intricate signaling system and the current model of FKBP12-RyR interaction via a single, central RyR epitope may therefore require revision.
...
PMID:Central domain of the human cardiac muscle ryanodine receptor does not mediate interaction with FKBP12.6. 1604 46
The second of three SPRY domains (SPRY2, S1085 -V1208) located in the
skeletal muscle ryanodine receptor
(
RyR1
) is contained within regions of
RyR1
that influence EC coupling and bind to imperatoxin A, a toxin probe of
RyR1
channel gating. We examined the binding of the F loop (P1107-A1121) in SPRY2 to the
ASI
/basic region in
RyR1
(T3471-G3500, containing both
alternatively spliced
(
ASI
) residues and neighboring basic amino acids). We then investigated the possible influence of this interaction on excitation contraction (EC) coupling. A peptide with the F loop sequence and an antibody to the SPRY2 domain each enhanced
RyR1
activity at low concentrations and inhibited at higher concentrations. A peptide containing the
ASI
/basic sequence bound to SPRY2 and binding decreased ~10-fold following mutation or structural disruption of the basic residues. Binding was abolished by mutation of three critical acidic F loop residues. Together these results suggest that the
ASI
/basic and SPRY2 domains interact in an F loop regulatory module. Although a region that includes the SPRY2 domain influences EC coupling, as does the
ASI
/basic region, Ca2+ release during ligand- and depolarization-induced
RyR1
activation were not altered by mutation of the three critical F loop residues following expression of mutant
RyR1
in
RyR1
-null myotubes. Therefore the electrostatic regulatory interaction between the SPRY2 F loop residues (that bind to imperatoxin A) and the
ASI
/basic residues of
RyR1
does not influence bi-directional DHPR-
RyR1
signaling during skeletal EC coupling, possibly because the interaction is interrupted by the influence of factors present in intact muscle cells.
...
PMID:The elusive role of the SPRY2 domain in RyR1. 2123 86
