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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)
Northern blot analysis of HeLa cell nuclear extract following electrophoresis in nondenaturing gels revealed that a small proportion of U2 small nuclear ribonucleoprotein (snRNP) displays a low mobility, in confirmation of previous reports. This low mobility form of U2 snRNP (termed LMC, for low mobility complex) also formed in vitro when U2 snRNP present in HeLa cytoplasmic S100 was added to a
micrococcal nuclease
-treated nuclear extract. Of greater experimental value, we found that the LMC also formed when a T7 U2 RNA transcript was assembled into U2 snRNP in a HeLa cytoplasmic S100 system, followed by its incubation in
micrococcal nuclease
-treated nuclear extract. LMC formation was ATP-dependent and was specific for U2 snRNP since it was not observed with S100-assembled U1 or U4 snRNPs.
RNase H
cleavage of U2 snRNP in the nuclear extract with an oligonucleotide complementary to nucleotides 28-42 of U2 RNA, as opposed to
micrococcal nuclease
treatment, rendered the extract competent to form the LMC, indicating that the nuclear factors responsible for LMC formation reside on endogenous U2 snRNP. LMC formation was not competed by excess U2 RNA but was competed by partially purified native U2 snRNP, providing further evidence that the LMC represents an interaction of nuclear factors with already assembled U2 snRNP. LMC formation did not take place on a mutant U2 snRNP lacking the binding site for the two U2-specific proteins, A' and B", nor on mutant U2 snRNPs lacking nucleotides 34-37 or nucleotides 46-49. Further results revealed that nucleotides 35 and 36 of U2 RNA, but not 34 and 37, are required for LMC formation. These experiments demonstrate a nucleotide sequence-specific interaction of U2 snRNP with nuclear factors in the absence of pre-mRNA. Among the U2 RNA nucleotides involved in the formation of this complex are ones previously implicated in base pairing between U2 RNA and the pre-mRNA lariat branch site. These findings are discussed in the context of the possibility that the LMC is on the spliceosome assembly pathway.
...
PMID:The U2 small nuclear ribonucleoprotein particle associates with nuclear factors in a pre-mRNA independent reaction. 165 22
Proteins interacting with pre-mRNAs during early stages of spliceosome formation in a HeLa nuclear extract were investigated by photochemical RNA-protein crosslinking. The level of protein crosslinking to a beta-globin pre-mRNA was positively correlated with the presence of an intron. Proteins of 110,000, 59,000 and 39,000 mol. wt. were crosslinked to the beta-globin pre-mRNA, the latter of which was identified as the A1 hnRNP protein. Comparable experiments with an adenovirus pre-mRNA revealed crosslinked proteins of 110,000, 56,000 and 45,000 mol. wt., with the latter identified as belonging to the C group hnRNP proteins. Crosslinking of hnRNP proteins to both the beta-globin and adenovirus pre-mRNAs was eliminated by oligodeoxynucleotide-directed
RNase H
excision of an internal region (nt 28-42) of U2 RNA, but was not affected by oligo/
RNase H
cleavage of the 5'-terminal 15 nucleotides of U2 RNA. Cleavage of the 5'-terminal 15 nucleotides of U1 RNA preferentially eliminated crosslinking of the hnRNP A1 protein to both pre-mRNAs. The requirement of intact U1 snRNP for A1 protein crosslinking was further demonstrated by the fact that although
micrococcal nuclease
-treated extracts did not support crosslinking of A1 hnRNP protein to beta-globin pre-mRNA, crosslinking was restored by addition of a U1 snRNP-enriched fraction.
...
PMID:Crosslinking of hnRNP proteins to pre-mRNA requires U1 and U2 snRNPs. 214
Hybrid nucleases consisting of an oligonucleotide fused to a unique site on the relatively nonspecific phosphodiesterase
staphylococcal nuclease
have been shown to sequence specifically cleave DNA. We have introduced mutations into the binding pocket of the nuclease which lower the kcat/Km of the enzyme. Hybrid nucleases generated from these mutants sequence selectively hydrolyze single-stranded DNA in a catalytic fashion, and under a much wider range of conditions than was previously possible. One such
hybrid nuclease
(Y113A, K116C) was able to site selectively cleave single-stranded M13mp7 DNA (7214 nt), primarily at one phosphodiester bond. Another
hybrid nuclease
(Y113A, L37A, K116C) catalyzed the hydrolysis of a 78-nt DNA substrate with a kcat of 1.2 min-1 and a Km of 120 nM. The effects of variations in the length and sequence of the oligonucleotide binding region were examined, as were changes in the length of the tether between the oligonucleotide and the enzyme. Cleavage specificity was also assayed as a function of substrate DNA primary and secondary structure and added poly(dA).
...
PMID:Generation of a catalytic sequence-specific hybrid DNase. 260 84
A nuclear extract from HeLa cells was fractionated by DEAE-Sepharose chromatography. The obtained fractions were assayed for binding to an RNA transcript carrying a splice site sequence of 9-16 nucleotides by a filter binding technique. The U1 RNA-rich small nuclear ribonucleoprotein (snRNP) fractions, which showed binding activities for both 5' and 3' splice site RNAs, were studied for the sequence specificity of their binding. Results indicate that the U1-rich snRNP fraction can recognize both 5' and 3' splice site sequences. The U1 RNP, which was highly purified from the snRNP fractions, bound to at least some 5' splice site sequences, but not to a consensus 3' splice site sequence. Therefore, purified U1 RNP can directly recognize a 5' splice site, but not a 3' splice site. The binding activity for the 5' splice sites was lost either by digestion with
micrococcal nuclease
or by digestion of the 5' end of U1 RNA with
RNase H
and a complementary oligodeoxynucleotide, indicating the involvement of U1 RNA. Involvement of a protein moiety as well in this binding was suggested by the loss of binding activity upon heating at 60 degrees C. The binding activity to a 3' splice site sequence was not sensitive to digestion by
micrococcal nuclease
and was removed by protein A-coupled anti-Sm antibody. This activity was found in sucrose gradient fractions of about 8 S.
...
PMID:Recognition of 5' and 3' splice site sequences in pre-mRNA studied with a filter binding technique. 304 Jul 11
An RNA-containing endonuclease that catalyzes the excision and maturation of the 16S ribosomal RNA (rRNA) from the rRNA primary transcript (pre-rRNA) in the hyperthermophilic archaeon Sulfolobus acidocaldarius has been characterized. The ribonucleoprotein was inactivated by
micrococcal nuclease
treatment and inactivation was reversed by reconstitution with bulk RNA. A 159-nucleotide RNA with sequence and structural similarity to U3 small nucleolar RNAs of eukaryotes copurified with the endonuclease activity. Oligonucleotide-targeted
ribonuclease H
inactivation of the U3-like RNA component also abolished processing activity. A motif within the U3 homolog is complementary to the region around the three cleavage sites in the pre-RNA substrate. Thus, U3-mediated processing of pre-rRNA is not specific to eukaryotes; its origin predates the divergence of archaea and eukaryotes.
...
PMID:Ribosomal RNA precursor processing by a eukaryotic U3 small nucleolar RNA-like molecule in an archaeon. 929 34
The C heterogeneous ribonucleoprotein particle (hnRNP) protein bind to nascent pre-mRNA and may participate in assembly of the early prespliceosome. Ser/Thr phosphorylation of the C1 hnRNP protein in HeLa nuclear extracts regulates its binding to pre-mRNA (S. H. Mayrand, P. Dwen, and T. Pederson, Proc. Natl. Acad. Sci. USA 90:7764-7768, 1993). We have now further investigated the phosphorylation cycle of the C1 hnRNP protein, with emphasis on its regulation. Pretreatment of nuclear extracts with
micrococcal nuclease
eliminated the phosphorylation of C1 hnRNP protein, but pretreatment with DNase did not, suggesting a dependence on RNA. Oligodeoxynucleotide-targeted
RNase H
cleavage of U1, U2, and U4 small nuclear RNAs did not affect the phosphorylation of C1 hnRNP protein. However, cleavage of nucleotides 78 to 95, but not other regions, of U6 small nuclear RNA resulted in an inhibition of the dephosphorylation step of the C1 hnRNP protein phosphorylation cycle. This inhibition was as pronounced as that seen with the serine/threonine protein phosphatase inhibitor okadaic acid. C1 hnRNP protein dephosphorylation could be completely restored by the addition of intact U6 RNA. Add-back experiments with mutant RNAs further delineated the minimal region essential for C1 protein dephosphorylation as residing in nucleotides 85 to 92 of U6 RNA. These results illuminate a hitherto unanticipated function of U6 RNA: the modulation of a phosphorylation-dephosphorylation cycle of C1 hnRNP protein that influences the binding affinity of this protein for pre-mRNA. This newly revealed function of U6 RNA is likely to play a very early role in the prespliceosome assembly pathway, prior to U6 RNA's entry into the mature spliceosome's active center.
...
PMID:A discrete 3' region of U6 small nuclear RNA modulates the phosphorylation cycle of the C1 heterogeneous nuclear ribonucleoprotein particle protein. 862 68
The hyperthermophilic archaeon Sulfolobus acidocaldarius uses a novel RNA-containing endonuclease to excise and mature 16S rRNA from the precursor (pre) rRNA transcript. A cell-free processing system has been developed using an in vitro transcribed RNA substrate containing the entire 144 nucleotide 5' external transcribed spacer (5'ETS) and the first 72 nucleotides of 16S rRNA. The cell-free extract cleaves in the 5'ETS at positions -99, -31, and +1 (i.e., the 5'ETS-16S junction). These positions are at or near the positions cleaved in vivo during processing of the pre rRNA transcript. The processing activity has been purified between 100 and 200-fold and appears to contain five or six polypeptide components and perhaps as many as 10 different small RNA components. Using combined reverse transcription-PCR amplification, full or partial cDNA copies of two of the RNA components have been obtained. One of the RNAs exhibits sequence and structural similarities to eukaryotic U3 snoRNA. The processing activity has been shown to be inactivated by
micrococcal nuclease
. It can be reactivated by reconstituting using bulk RNA from S.acidocaldarius but not bulk RNA from distantly related organisms. The activity is also abolished by
RNase H
digestion in the presence of oligonucleotides complementary to the U3-like RNA. These results demonstrate that the U3-like RNA is an essential component of the pre rRNA processing RNP endonuclease. Furthermore, this RNP endonuclease is not a derived eukaryotic feature, instead its existence predates the divergence of archaea and eukaryotes.
...
PMID:Preribosomal RNA processing in archaea: characterization of the RNP endonuclease mediated processing of precursor 16S rRNA in the thermoacidophile Sulfolobus acidocaldarius. 872 97
The C-group heterogeneous nuclear ribonucleoprotein (hnRNP) proteins bind to nascent pre-messenger RNA. In vitro studies have indicated that the C hnRNP proteins bind particularly strongly to the intron polypyrimidine tract of pre-mRNA and may be important for pre-mRNA splicing. In addition, there is evidence that the interaction of the C hnRNP proteins with pre-mRNA is facilitated by the U1 and U2 small nuclear RNPs (snRNPs). In the present study, we have uncovered another feature of the C hnRNP proteins that may provide a unifying framework for these previous observations; the C hnRNP proteins bind to the 5' stem-loop of the U2 snRNP. This was detected by incubating human 32P-labeled U2 snRNP in
micrococcal nuclease
-treated HeLa nuclear extracts, followed by UV-mediated protein-RNA cross-linking, which revealed that C hnRNP proteins were cross-linked to 32P-nucleotides in the U2 snRNP. In similar experiments, no cross-linking of C hnRNP proteins to 32P-labeled U1 or U4 snRNPs was observed. The observed cross-linking of C hnRNP proteins to U2 snRNP was efficiently competed by excess U2 RNA and by poly(U) but not by poly(A). No competition was observed with an RNA molecule comprising U2 nucleotides 105-189, indicating that the C hnRNP protein interactive regions of U2 RNA reside solely in the 5' half of the molecule. Oligodeoxynucleotide-mediated
RNase H
cleavage experiments revealed that a 5' region of U2 RNA including nucleotides 15-28 is essential for the observed C hnRNP protein cross-linking. C hnRNP protein cross-linking to U2 snRNP was efficiently competed by a mini-RNA corresponding to the first 29 nucleotides of U2 RNA, whereas no competition was observed with a variant of this mini-RNA in which the UUUU loop of stem-loop I was mutationally configured into a single-stranded RNA by replacing the stem with non-pairing nucleotides. Competition experiments with another mutant mini-U2 RNA in which the UUUU loop was replaced by AAAA indicated that both the UUUU loop and the stem are important for C hnRNP protein cross-linking, a finding consistent with other recent data on the RNA sequence specificity of C hnRNP protein binding.
...
PMID:The C-group heterogeneous nuclear ribonucleoprotein proteins bind to the 5' stem-loop of the U2 small nuclear ribonucleoprotein particle. 879 70
Small nuclear RNAs (snRNA), cofactors in the splicing of pre-mRNA, are highly modified. In this report the modification of human U4 RNA was studied using cell extracts and in vitro synthesized, and therefore unmodified, U4 RNA. The formation of pseudouridine (Psi) at positions 4, 72 and 79 in U4 RNA was dependent on an RNA-containing cofactor, since the activities in the extracts were
micrococcal nuclease
(MN) sensitive. Extracts were fractionated on glycerol gradients and there was a broad peak of reconstitution activity centered at 14 S. Reconstitution was not due to additional enzymatic activity, since the peak fraction was MN sensitive. Oligodeoxynucleotide-mediated
RNase H
digestion of U6 RNA in the extracts inhibited formation of Psi in U4 RNA. From glycerol gradient analysis we determined that exogenously added U4 RNA that is associated with U6 RNA (sedimentation velocity 16 S) was significantly higher in Psi content than U4 RNA not associated with U6 RNA (8 S). Competitive inhibitors of Psi synthases, 5-fluorouridine-containing (5-FU) wild-type and mutant U4 RNAs, were used to investigate formation of Psi in U4 RNA. Deletions and point mutations in these 5-FU-containing U4 RNAs affected their ability to inhibit Psi synthase in vitro. With the aid of these potent inhibitors it was determined that at least two separate activities modify the uridines at these positions.
...
PMID:Modification of human U4 RNA requires U6 RNA and multiple pseudouridine synthases. 936 61
Recently, we developed a simple analytical model based on local residue packing densities and the distribution of tertiary contacts for describing the conformational fluctuations of proteins in their folded state. This so-called Gaussian network model (GNM) is applied here to the interpretation of experimental hydrogen exchange (HX) behavior of proteins in their native state or under weakly denaturing conditions. Calculations are performed for five proteins: bovine pancreatic trypsin inhibitor, cytochrome c, plastocyanin,
staphylococcal nuclease
, and
ribonuclease H
. The results are significant in two respects. First, a good agreement is reached between calculated fluctuations and experimental measurements of HX despite the simplicity of the model and within computational times 2 or 3 orders of magnitude faster than earlier, more complex simulations. Second, the success of a theory, based on the coupled conformational fluctuations of residues near the native state, to satisfactorily describe the native-state HX behavior indicates the significant contribution of local, but cooperative, fluctuations to protein conformational dynamics. The correlation between the HX data and the unfolding kinetics of individual residues further suggests that local conformational susceptibilities as revealed by the GNM approach may have implications relevant to the global dynamics of proteins.
...
PMID:Correlation between native-state hydrogen exchange and cooperative residue fluctuations from a simple model. 945 98
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