EC:3.1.26.4 - FACTA Search

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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)

alpha-Anomeric oligonucleotides are resistant to nucleases and display parallel hybridization with complementary DNA and RNA sequences. Although alpha-DNA/beta-RNA duplexes are not substrates for RNases H, alpha-oligos are able to inhibit translation through a RNase H independent mechanism. alpha-Oligos and their alpha-phosphorothioate analogs (12 mer) targeted against the splice acceptor site of the HIV-TAT gene were potent inhibitors of de novo HIV infection. Furthermore alpha-phosphorothioate and dithioate homo-oligomers exhibit an in vitro, nonsequence-specific, inhibitory effect on HIV reverse transcriptase.
Anticancer Drug Des 1991 Dec
PMID:Alpha-oligonucleotides: a unique class of modified chimeric nucleic acids. 177 67

In nematodes, a fraction of mRNAs acquires a common 22-nucleotide 5'-terminal spliced leader sequence via a trans-splicing reaction. The same premessenger RNAs which receive the spliced leader are also processed by conventional cis-splicing. Whole cell extracts prepared from synchronous embryos of the parasitic nematode Ascaris lumbricoides catalyze both cis- and trans-splicing. We have used this cell-free system and oligodeoxynucleotide directed RNase H digestion to assess the U small nuclear RNA requirements for nematode cis- and trans-splicing. These experiments indicated that both cis- and trans-splicing require intact U2 and U4/U6 small nuclear ribonucleoproteins (snRNPs). However, whereas cis-splicing displays the expected requirement for an intact U1 snRNP, trans-splicing is unaffected when approximately 90% of U1 snRNP is degraded. These results suggest that 5' splice site identification differs in nematode cis- and trans-splicing.
J Biol Chem 1991 Dec 05
PMID:U small nuclear ribonucleoprotein requirements for nematode cis- and trans-splicing in vitro. 183 72

We describe a scheme for isolation of new classes of mutants in the cell cycle of Escherichia coli. The mutants were selected as resistant to camphor vapors, which results in increased ploidy, and were subsequently screened for an increase in cell density and an increase in the gene dosage of the lac operon. Our mutations are located at four different places in the chromosome; we have named these loci mbr (moth ball resistant). mbrA maps to 68 min on the E. coli chromosome, mbrB to 88.5 min, mbrC to 89.5 min, and mbrD to 90 min. mbrD mutations may be alleles of rpoB (a subunit of RNA polymerase). In addition to the selected or screened phenotypes, most of the mutants fail to grow on rich media or at high temperatures. We have examined the nine mutants under nonpermissive conditions, using several techniques to determine the cause of death. We have also coupled our mutations with lesions in dnaA, which is required for cell-cycle-specific DNA replication, and rnh (the gene for RNase H), which is required for specificity in the DNA initiation reaction, and determined the effects of the double and triple mutants under permissive and nonpermissive conditions. These tests have shown that bacteria mutated at mbrA do not tolerate a null mutation in rnh, indicating that they are dependent on DNA replication initiating at oriC. In contrast, mutations at mbrB, mbrC, and mbrD exhibit their phenotypes independent of oriC initiation of DNA replication, suggesting that the mutations affect factors that influence the DNA/cell ratio regardless of the origin of DNA replication. Based on our results, the mbr mutations appear to have defects in cell-cycle timing and/or defects in chromosomal partitioning.
Genes Dev 1990 Dec
PMID:On the bacterial cell cycle: Escherichia coli mutants with altered ploidy. 217 33

Intramolecular and intermolecular snRNA cross-links were generated by irradiating HeLa nuclear extract with 365 nm light in the presence of the psoralen derivative AMT. After deproteinization, cross-linked RNAs were resolved by gel electrophoresis and identified as anomalously migrating species by Northern blotting. In addition to the U4/U6 snRNA cross-link, we detected an intermolecular U2/U6 cross-link, as well as several apparently intramolecular U1, U2, and U5 cross-links. Photoreversal of the U2/U6 cross-link with 254 nm irradiation released stoichiometric amounts of U2 and U6 snRNA. To localize the U2/U6 cross-link, the 3' end of U2 in the purified U2/U6 complex was labeled selectively using a novel oligonucleotide "splint" technique. The labeled U2/U6 complex was then subjected to rapid enzymatic RNA sequencing or to targeted digestion of the U2 and U6 components of the complex by RNase H and a panel of complementary oligonucleotides. The U2/U6 cross-link is located upstream of nucleotide 15 in U2 and downstream of nucleotide 85 in U6, suggesting that the phylogenetically conserved base-pairing between these regions (6 consecutive base pairs in human, Drosophila melanogaster, and Caenorhabditis elegans, 7 in Schizosaccharomyces pombe and Trypanasoma brucei, 8 in Pisum sativum, 11 in Saccharomyces cerevisiae) is significant.
Genes Dev 1990 Dec
PMID:Evidence for base-pairing between mammalian U2 and U6 small nuclear ribonucleoprotein particles. 217 35

A complex network of interacting proteins and enzymes is required for DNA replication. Much of our present understanding is derived from studies of the bacterium Escherichia coli and its bacteriophages T4 and T7. These results served as a guideline for the search and the purification of analogous proteins in eukaryotes. model systems for replication, such as the simian virus 40 DNA, lead the way. Generally, DNA replication follows a multistep enzymatic pathway. Separation of the double-helical DNA is performed by DNA helicases. Synthesis of the two daughter strands is conducted by two different DNA polymerases: the leading strand is replicated continuously by DNA polymerase delta and the lagging strand discontinuously in small pieces by DNA polymerase alpha. The latter is complexed to DNA primase, an enzyme in charge of frequent RNA primer syntheses on the lagging strand. Both DNA polymerases require several auxiliary proteins. They appear to make the DNA polymerases processive and to coordinate their functional tasks at the replication fork. 3'----5'-exonuclease, mostly part of the DNA polymerase delta polypeptide, can perform proof-reading by excising incorrectly base-paired nucleotides. The short DNA pieces of the lagging strand, called Okazaki fragments, are processed to a long DNA chain by the combined action of RNase H and 5'----3'-exonuclease, removing the RNA primers, DNA polymerase alpha or beta, filling the gap, and DNA ligase, sealing DNA pieces by phosphodiester bond formation. Torsional stress during DNA replication is released by DNA topoisomerases. In contrast to prokaryotes, DNA replication in eukaryotes not only has to create two identical daughter strands but also must conserve higher-order structures like chromatin.
Eur J Biochem 1990 Dec 27
PMID:Eukaryotic DNA replication. Enzymes and proteins acting at the fork. 226 94

The oligonucleotide-directed RNase H sensitivity of a yeast (Saccharomyces cerevisiae) pre-mRNA was determined in an in vitro splicing reaction. While most of the pre-mRNA was sensitive to cleavage, the regions of the 5' splice site and TACTAAC box were found to be highly resistant. The biochemical requirements for protection against nuclease attack parallel those of both spliceosome formation and splicing. Most of the uncleaved pre-mRNA remaining after RNase H challenge was found associated with two forms of the yeast spliceosome. Differences in the RNase H sensitivity of pre-mRNA found in the two spliceosome forms indicate an increased association of splicing factors with the 5' splice site during spliceosome assembly.
EMBO J 1986 Dec 20
PMID:Differential nuclease sensitivity identifies tight contacts between yeast pre-mRNA and spliceosomes. 243 46

alpha and beta-anomeric d(G2T12G2) oligodeoxyribonucleotides were compared for their hybridization to rA12: the observed melting temperatures are 27 degrees C for beta-oligodeoxyribonucleotide/RNA hybrid and 53 degrees C for alpha-oligodeoxyribonucleotide/RNA. alpha-oligonucleotides with the four bases, complementary to natural mRNAs, were synthesized for the first time, labeled at their 5'-end with [32P] and used as probes in Northern blot experiments. In spite of these higher affinities for their target RNA's, they were unable to block translation of natural or synthetic mRNA's in rabbit reticulocyte lysate. We have studied the RNase H activity on model rA12:alpha- or beta-d(G2T12G2) hybrids or on mRNA:alpha- or beta-oligonucleotides hybrids. Specific hybridization protects RNA strech when using alpha-oligonucleotides but not beta-oligonucleotides. Thus, our results show the inability of RNase H to degrade RNA in alpha-oligodeoxyribonucleotides:RNA duplexes.
Nucleic Acids Res 1987 Dec 23
PMID:alpha-DNA. VI: Comparative study of alpha- and beta-anomeric oligodeoxyribonucleotides in hybridization to mRNA and in cell free translation inhibition. 244 62

End-labelled oligodeoxynucleotides were injected into Xenopus laevis oocytes and their degradation products were analysed by high-performance ion-exchange liquid chromatography after various times of incubation. The oligonucleotides were synthesised with either the natural [beta] anomers or the synthetic [alpha] anomers of deoxynucleotide units. Oligo-[beta] deoxynucleotides are short-lived inside oocytes (half-life approximately equal to 10 min). Covalent attachment of an intercalating agent to the 3'-phosphate and of a methylthiophosphate group at the 5'-end protects oligodeoxynucleotides against 3'- and 5'-exonucleases, respectively. The half-life of such substituted oligodeoxynucleotides is increased to 40 minutes. Oligo-[alpha]-deoxynucleotides are quite resistant to both endo and exonucleases inside Xenopus oocytes. After 8 hours only 40% of a 16-mer oligo-[alpha]-deoxynucleotide were hydrolysed. The rapid degradation of oligo-[beta]-deoxynucleotides suggests that efficient inhibition of translation in Xenopus oocytes involves an RNase H-induced hydrolysis of mRNAs hybridized to oligo-[beta]-deoxynucleotides.
Nucleic Acids Res 1987 Dec 23
PMID:Rate of degradation of [alpha]- and [beta]-oligodeoxynucleotides in Xenopus oocytes. Implications for anti-messenger strategies. 244 63

RNAs of full-grown mouse oocytes, ovulated eggs, embryos, and somatic tissues have been analyzed on Northern blots for the presence of small transcripts homologous to the B2 element, a repetitive 180-nucleotide (N) sequence in the genome, using a single stranded RNA probe. In addition to the heterogeneous 200- to 600-N polyadenylated group reported by others, cytoplasmic RNA contains discrete nonadenylated species of B2-related RNA, approximately 100, 120, 155, and 180 N in length. During meiotic maturation of oocytes, the 200- to 600-N group declines and the 155-N species becomes more prominent. Upon hybridization to oligo(dT) and cleavage with RNase H to remove poly(A) regions, the 200- to 600-N group is removed, the 180-N species increased greatly, and the 155-N species increased slightly. Essentially all of the 200- to 600-N species bind to poly(U) sepharose. We conclude that polyadenylation rather than run-on transcription of B2 elements accounts for most of the heterogeneity of the 200- to 600-N group and that some deadenylation and cleavage take place during maturation. Small B2 RNAs make up 0.04% of total RNA in oocytes and eggs, 6- to 9-fold more than in brain. For comparison, a known small RNA, 4.5 S RNA, is relatively sparse in oocytes and almost absent in eggs. The 100-N B2-related species has been tentatively identified as 4.5 SI RNA; relative to total RNA, it remains approximately constant in oocytes and somatic tissues. During development to the blastocyst stage, small B2 RNAs per embryo increase severalfold, but decline as a fraction of total RNA. In postimplantation development, they continue to decline toward the level found in brain. Expression of B2 transcripts in hnRNA rises around 10 days of development to the level found in brain. The time course of expression of small B2 RNAs suggests an important role in development.
Dev Biol 1988 Dec
PMID:Small B2 RNAs in mouse oocytes, embryos, and somatic tissues. 246 84

From the yeast, Saccharomyces cerevisiae, three proteins exhibiting ribonuclease H activity were isolated. These proteins differ in molecular weights and enzymatic properties. The two smaller ones, RNAase H(55) and RNAase H(42) are immunologically and structurally related to each other. Neither reacts with antibodies against the largest one, RNAase H(70). Highly purified preparations of RNAase H(70) contain two polypeptides (Mr 70,000 and 160,000) and display reverse transcriptase activity. Deletion of part of the gene for the 160 kDa polypeptide results in mutants possessing about twice the amount of DNA as do wild-type cells. DNA polymerase stimulating activity resides in the 70,000 polypeptide. The processivity of yeast DNA polymerase A(I) does not change in presence of that protein. Possible functions of RNAases H are discussed.
Biochim Biophys Acta 1988 Dec 20
PMID:Three ribonucleases H and a reverse transcriptase from the yeast, Saccharomyces cerevisiae. 246 14

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