Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.1 (S1 nuclease)
 3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A small nuclear ribonucleoprotein, U1 snRNP, has been implicated in mRNA processing. In this investigation sites of protein binding on U1 RNA were mapped by nuclease protection and RNA sequencing. Partially purified human U1 snRNP was sequentially digested with Escherichia coli RNAase III and S1 nuclease. The resistant ribonucleoprotein fragments were deproteinized, preparatively hybridized to the U1 RNA--complementary DNA strand of a human U1 gene cloned in bacteriophage M13, and displayed by electrophoresis. The nuclease-resistant U1 RNA fragments were between 23 and 63 nucleotides in length. Most of these fragments were not obtained when protein-free U1 RNA was similarly digested, whereas others were obtained in low yield from U1 RNA and much higher yield from U1 snRNP. RNA sequencing of the fragments revealed that the protein-protected sites in U1 snRNP correspond to base-paired stems I and II, loop a, and portions of stems III and IV (secondary structure nomenclature of Branlant et al., 1981). Single, "bulged" pyrimidines are present within the protein-covered helical regions of stems I and III. Most interestingly, the single-stranded 5' end of U1 RNA, implicated in mRNA splicing, was also highly protected by protein. These results demonstrate that the great majority of U1 RNA is covered by protein in U1 snRNP. The association of protein with the 5' end of U1 RNA is in agreement with recent evidence that snRNP proteins potentiate the binding of this region of U1 RNA with pre-mRNA splice sites.
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PMID:Ribonucleoprotein organization of eukaryotic RNA. XXXI. Structure of the U1 small nuclear ribonucleoprotein. 608 24

With the improved rapid sequencing techniques, the earlier sequence of U2 RNA of Novikoff hepatoma (Shibata et al, J. Biol. Chem. 250, 3909-3920, 1975) was reanalyzed and modified. The improved sequence of U2 RNA is 188 (or 189) nucleotides long and is in register with a characterized U2 RNA pseudogene (Denison et al, PNAS 78, 810-814, 1981) except for an 11 nucleotide sequence (nucleotides 147-157) which is absent from the pseudogene. From these results, a secondary structure of U2 RNA is proposed which is supported by the preferred cleavage sites with T1-RNase, RNase A and S1 nuclease. Isolated U2 RNA was cleaved by T1-RNase preferentially at positions 64 and 164, whereas U2 RNA in U2-snRNP was cleaved only at position 64, indicating that position 164 is protected in U2-snRNP. As with U1 RNA (Epstein et al, PNAS 78, 1562-1566, 1981) the 5'-end of isolated U2 RNA was not preferentially cleaved by T1-RNase.
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PMID:Primary and secondary structure of U2 snRNA. 679 40

Physical, chemical and biological parameters of HeLa cell cultures, which ensure obtaining standard nuclear material to be used as a source of snRNP and snRNA, have been determined. The secondary structure of U1 snRNA as the result of the conformational studies performed using S1 nuclease, A and T1 ribonuclease and Pb(II) ions, and reproducibility of the results obtained after 6-48 h exposure of the cells to actinomycin D at high concentration permit to accept the proposed method of standardization as satisfactory for investigation into snRNP and snRNA.
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PMID:Standardization of HeLa cells preparations as the source of snRNA's for preliminary study on the effectors of pre-mRNA splicing. 750 38