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Target Concepts:
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Query: EC:3.1.26.4 (
RNase H
)
2,751
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Go alpha a guanine nucleotide-binding (G) protein abundant in brain and other neural tissues, has been implicated in ion channel regulation. Concerted efforts in several laboratories have revealed multiple Go alpha mRNAs and protein isoforms in different contexts. Go alpha is a single copy gene in mammalian species, although the structure, number and tissue localization of Go alpha mRNAs reported by investigators are inconsistent. To define the cell-specific expression of
alternatively spliced
variants of Go alpha mRNA, we employed several strategies, including Northern hybridizations with sequences-specific oligonucleotides, selective digestions of Go alpha mRNA using
RNase H
, and adaptations of the polymerase chain reaction. Four distinct
alternatively spliced
variants were identified, a 5.7-kb Go alpha 2 mRNA and three Go alpha 1 mRNAs with different 3' UTRs. The UTRs of the three Go alpha 1s are composed of different combinations of what have been referred to as UTR-A and UTR-B. The sequences of the spliced segments are well conserved among mammalian species, suggesting a functional role for these
alternatively spliced
3' UTRs in post-transcriptional and/or tissue-specific regulation of Go alpha expression. The position of the intron-exon splice boundary at nucleotide 31 following T of the TGA stop codon is conserved in the Gi alpha 2 and Gi alpha 3 genes, consistent with the notion that similar alternative splicing of 3' UTRs occurs in products of these related genes.
...
PMID:Alternative splicing of the guanine nucleotide-binding regulatory protein Go alpha generates four distinct mRNAs. 813 26
Exon 7B in the hnRNP A1 pre-mRNA is
alternatively spliced
to yield A1 and A1(B), two proteins that differ in their ability to modulate 5' splice site selection. Sequencing the murine intron downstream of exon 7B revealed the existence of several regions of similarity to the corresponding human intron. In vitro splicing assays indicate that an 84-nt region (CE6IO) decreases splicing to the proximal 5' splice site in a pre-mRNA carrying the 5' splice sites of exon 7 and 7B. In vivo, the CE6IO element promotes exon 7B skipping in pre-mRNAs expressed from a mini-gene containing the hnRNP A1 alternative splicing unit. Using oligonucleotide-targeted
RNase H
cleavage assays, we provide support for the existence of highly stable base pairing interactions between CE6IO and the 5' splice site region of exon 7B. Duplex formation occurs in naked pre-mRNA, resists incubation in splicing extracts, and is associated with a reduction in the assembly of U1 snRNP-dependent complexes to the 5' splice site of exon 7B. Our results demonstrate that pre-mRNA secondary structure plays an important role in promoting exon 7B skipping in the A1 pre-mRNA.
...
PMID:A highly stable duplex structure sequesters the 5' splice site region of hnRNP A1 alternative exon 7B. 908 47
The hnRNP A1 pre-mRNA is
alternatively spliced
to yield the A1 and A1b mRNAs, which encode proteins differing in their ability to modulate 5' splice site selection. Sequencing a genomic portion of the murine A1 gene revealed that the intron separating exon 7 and the alternative exon 7B is highly conserved between mouse and human. In vitro splicing assays indicate that a conserved element (CE1) from the central portion of the intron shifts selection toward the distal donor site when positioned in between the 5' splice sites of exon 7 and 7B. In vivo, the CE1 element promotes exon 7B skipping. A 17-nucleotide sequence within CE1 (CE1a) is sufficient to activate the distal 5' splice site. RNase T1 protection/immunoprecipitation assays indicate that hnRNP A1 binds to CE1a, which contains the sequence UAGAGU, a close match to the reported optimal A1 binding site, UAGGGU. Replacing CE1a by different oligonucleotides carrying the sequence UAGAGU or UAGGGU maintains the preference for the distal 5' splice site. In contrast, mutations in the AUGAGU sequence activate the proximal 5' splice site. In support of a direct role of the A1-CE1 interaction in 5'-splice-site selection, we observed that the amplitude of the shift correlates with the efficiency of A1 binding. Whereas addition of SR proteins abrogates the effect of CE1, the presence of CE1 does not modify U1 snRNP binding to competing 5' splice sites, as judged by oligonucleotide-targeted
RNase H
protection assays. Our results suggest that hnRNP A1 modulates splice site selection on its own pre-mRNA without changing the binding of U1 snRNP to competing 5' splice sites.
...
PMID:An intron element modulating 5' splice site selection in the hnRNP A1 pre-mRNA interacts with hnRNP A1. 912 25
Expression of the interleukin-5 receptor-alpha (IL-5Ralpha) chain is thought to play an important role in the pathogenesis of asthma and other eosinophilic diseases. With antisense oligonucleotides (ASOs) chemically modified to provide increased hybridization affinity for RNA but that do not support
RNase H
-mediated cleavage (2'-O-methoxyethyl-modified ASOs), we show that constitutive splicing of murine IL-5Ralpha mRNA can be modulated in cells such that individual exons may be selectively deleted from mature transcripts. Specific deletion of individual exons and redirection of alternative splicing of the IL-5Ralpha mRNA have been achieved with this approach, by targeting 3'-splice sites or exon sequences immediately downstream of an alternative splice site. ASO targeting with these strategies resulted in inhibition of mRNA and protein levels of the membrane IL-5Ralpha isoform capable of signaling IL-5-mediated growth and antiapoptotic signals to eosinophils. Membrane isoform IL-5Ralpha inhibition was coupled with an increase in expression of mRNA for the
alternatively spliced
soluble isoform, which binds IL-5 extracellularly and may block its function. These observations suggest the potential general therapeutic use of an antisense approach to increase expression of variant RNA transcripts and to thereby produce proteins devoid of specific functional domains that may impact disease processes, as well as its specific utility for modulating expression of a key cytokine receptor implicated in allergic inflammation.
...
PMID:Deletion of individual exons and induction of soluble murine interleukin-5 receptor-alpha chain expression through antisense oligonucleotide-mediated redirection of pre-mRNA splicing. 1090 6
Pnn/DRS protein is associated with desmosomes and colocalizes with splicing factors in nuclear speckled domains. The potential interaction of Pnn with RNPS1, a pre-mRNA splicing factor and a component of the exon-exon junction complex, prompted us to examine whether Pnn is involved in nuclear mRNA processing. By immunoprecipitation, we found that Pnn associates preferentially with mRNAs produced by splicing in vitro. Oligonucleotide-directed
RNase H
digestion revealed that Pnn binds to the spliced mRNAs at a position immediately upstream of the splice junction and that 5' splice site utilization determines the location of Pnn in
alternatively spliced
mRNAs. Immunoprecipitation further showed that Pnn binds to mRNAs produced from a transiently expressed reporter in vivo. Although associated with mRNPs, Pnn is a nuclear-restricted protein as revealed by the heterokaryon assay. Overexpression of an amino-terminal fragment of Pnn that directly interacts with RNPS1 leads to blockage of pre-mRNA splicing. However, although suppression of Pnn expression shows no significant effect on splicing, it leads to some extent to nuclear accumulation of bulk poly(A)(+) RNA. Therefore, Pnn may participate, via its interaction with RNPS1, in mRNA metabolism in the nucleus, including mRNA splicing and export.
...
PMID:Nuclear Pnn/DRS protein binds to spliced mRNPs and participates in mRNA processing and export via interaction with RNPS1. 1451 4
