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)

Phosphorothioate oligodeoxycytidine (S-dCn) was used as a model compound to examine the impact of the number of phosphorothioate linkages and their position on the inhibition of human DNA polymerases and RNase H in vitro. S-dCn with a chain length longer than 15 could inhibit human DNA polymerases and RNase H activities, in a linkage number-dependent manner. Longer oligomers were more potent inhibitors than shorter ones. Kinetic studies indicated that S-dC28 was a competitive inhibitor of DNA polymerase alpha and beta with respect to the DNA template, whereas it was a noncompetitive inhibitor of polymerases gamma and delta. S-dC28 was also a competitive inhibitor of RNase H1 and H2 with respect to RNA-DNA duplex. Susceptibility of these enzymes to inhibition by S-dC28 was in the order of delta approximately gamma greater than alpha greater than beta and RNase H1 greater than RNase H2. Structural-activity relationships were explored with a group of S-dC28 analogs that have phosphorothioate internucleotide linkages at various positions. The inhibitory effect depended on the total number of thioate linkages, rather than the position of the linkages within the oligomer or the chain length itself. No sequence specificity was found. In the presence of the complementary RNA, antisense phosphorothioates (S-oligos) exerted a biphasic effect on RNase H activity. At low concentrations S-oligos could enhance the cleavage of the RNA portion of S-oligo-RNA duplex, whereas at high concentrations (in excess of the complementary RNA) S-oligos could inhibit RNase H and protect the complementary RNA from degradation. Together, these results suggest that the non-sequence-specific inhibitory effect of S-oligos should be taken into consideration in designing antisense inhibitors. This inhibitory activity could be avoided by decreasing the number of phosphorothioate linkages at the backbone, and S-oligos of 15-20 residues are preferable in antisense molecule design.
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PMID:Phosphorothioate oligonucleotides are inhibitors of human DNA polymerases and RNase H: implications for antisense technology. 137 82

A DNA fragment encoding Ribonuclease H (EC 3. 1.26.4) was isolated from an extreme thermophilic bacterium, Thermus thermophilus HB8, by its ability to complement the temperature-sensitive growth of an Escherichia coli rnhA deficient mutant. The primary amino acid sequence showed 56% similarity to that of E. coli RNase HI but little or no homology to E. coli RNase HII. Enzymes derived from thermophilic organisms tend to have fewer cysteines than their bacterial counterparts. However, T. thermophilus RNase H has one more cysteine than its E. coli homologue. Stability of the RNase H in extracts of T. thermophilus to elevated temperatures was the same for the protein expressed in E. coli. T. thermophilus RNase H should, therefore, be a useful tool for editing RNA-DNA hybrid molecules at higher temperatures and may also be stable enough to be used in a cyclical process. It was suggested that regulation of expression of the RNase H may be different from that of E. coli. RNase HI.
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PMID:Molecular cloning of a ribonuclease H (RNase HI) gene from an extreme thermophile Thermus thermophilus HB8: a thermostable RNase H can functionally replace the Escherichia coli enzyme in vivo. 165 14

The major ribonuclease H from K562 human erythroleukemia cells has been purified more than 4,000-fold. This RNase H, now termed RNase H1, is an endoribonuclease whose products contain 5'-phosphoryl and 3'-hydroxyl termini. The enzyme has a native molecular weight of 89,000 based on its sedimentation and diffusion coefficients. Human RNase H1 has an absolute requirement for a divalent cation. Maximal activity is obtained with either 10 mM Mg2+, 5 mM Co2+, or 0.5 mM Mn2+. The pH optimum is between 8.0 and 8.5 in the presence of 10 mM Mg2+. The isoelectric point is 6.4. RNase H1 lacks double-stranded and single-stranded RNase and DNase activities, and it will not hydrolyze the DNA moiety of an RNA.DNA heteroduplex. Unlike the Escherichia coli enzyme, which requires a heteroduplex that contains at least four consecutive ribonucleotides for activity, human RNase H1 can hydrolyze a DNA.RNA.DNA/DNA heteroduplex that contains a single ribonucleotide. Cleavage occurs at the 5' phosphodiester of this residue. This substrate specificity suggests that human RNase H1 could play a role in ribonucleotide excision from genomic DNA during replication.
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PMID:Ribonuclease H from K562 human erythroleukemia cells. Purification, characterization, and substrate specificity. 170 18

We have reinvestigated the molecular weight and subunit composition of calf thymus ribonuclease H1. Earlier studies suggested a variety of molecular weights for the enzyme in the range of 64K-84K and reported that the enzyme either was a single polypeptide of 74 kDa or consisted of from two to four subunits in the range of 21-34 kDa. Although we too find bands in this lower molecular weight range in our highly purified preparations following SDS-PAGE, our data suggest that the native structure of RNase H1 is a dimer of 68-kDa subunits. The evidence includes the following: (1) Western blot analysis of fractions taken at various stages of the purification indicates that the predominant antigenic form of the enzyme in crude extracts has a molecular weight of 68K but that during purification in the absence of sufficient protease inhibitors a variety of lower molecular weight forms appear concomitant with the disappearance of the 68-kDa band. (2) Activity gel analysis of the highly purified enzyme prepared in the presence of a battery of protease inhibitors reveals that the 68-kDa band (as well as several bands of lower molecular weight) possesses RNase H activity. (3) The 68-kDa band recognized by Western blotting with anti-RNase H immune sera is not detected by using preimmune sera. Furthermore, when immune sera are used, a trace of a 140-150-kDa antigenic form can sometimes be detected, consistent with the existence of a dimeric form of the enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:On the molecular weight and subunit composition of calf thymus ribonuclease H1. 215 45

An additional RNase H (EC 3.1.26.4), RNase HII, has been isolated from Escherichia coli K-12. By screening a library of E. coli DNA for clones that suppressed RNase H deficiency of an E. coli rnh mutant, a clone was obtained that produced a protein with RNase H activity. The overexpressed RNase HIII protein in E. coli was purified to near homogeneity and exhibited a strong preference for the ribonucleotide moiety of RNA-DNA hybrid as substrate. The terminal 11 amino acids were determined and were identical to those predicted from the nucleotide sequence. The rnhB gene, which encodes RNase HII, was distinct from rnhA by its map position (4.5 min on E. coli genetic map, between lpxB and dnaE) and by the lack of significant amino acid sequence similarity. The presence of a second RNase H in E. coli indicates that multiple RNase H genes per genome is a general feature of a general feature of a wide variety of organisms.
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PMID:Isolation and characterization of a second RNase H (RNase HII) of Escherichia coli K-12 encoded by the rnhB gene. 217 91

Eukaryotic ribonucleases H of known sequence are composed of an RNase H domain similar in size and sequence to that of Escherichia coli RNase HI and additional domains of unknown function. The RNase H1 of Saccharomyces cerevisiae has such an RNase H domain at its C-terminus. Here we show that the N-terminal non-RNase H portion of the yeast RNase H1 binds tightly to double-stranded RNA (dsRNA) and RNA-DNA hybrids even in the absence of the RNase H domain. Two copies of a sequence with limited similarity to the dsRNA-binding motif are present in this N-terminus. When the first of these sequences is altered, the protein no longer binds tightly to dsRNA and exhibits an increase in RNase H activity. Unlike other dsRNA-binding proteins, increasing the Mg2+ concentration from 0.5 mM to 5 mM inhibits binding of RNase H1 to dsRNA; yet a protein missing the RNase H domain binds strongly to dsRNA even at the higher Mg2+ concentration. These results suggest that binding to dsRNA and RNase H activity are mutually exclusive, and the Mg2+ concentration is critical for switching between the activities. Changes in the Mg2+ concentration or proteolytic severing of the dsRNA-binding domain could alter the activity or location of the RNase H and may govern access of the enzyme to the substrate. Sequences similar to the dsRNA-binding motif are present in other eukaryotic RNases H and the transactivating protein of cauliflower mosaic virus, suggesting that these proteins may also bind to dsRNA.
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PMID:The non-RNase H domain of Saccharomyces cerevisiae RNase H1 binds double-stranded RNA: magnesium modulates the switch between double-stranded RNA binding and RNase H activity. 748 97

Bacterial reverse transcriptase is responsible for the synthesis of multicopy single-stranded DNA (msDNA). Reverse transcriptases from retron-Ec73 and retron-Ec107 do not contain an RNase H domain. Cellular RNase H is therefore considered to be required to make the mature form of msDNA. We found that RNase HI, but not RNase HII, is required for the production of the mature form of both msDNAs.
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PMID:The role of ribonuclease H in multicopy single-stranded DNA synthesis in retron-Ec73 and retron-Ec107 of Escherichia coli. 752 2

Human immunodeficiency virus (HIV) reverse transcriptase (RT) is a multifunctional protein, containing both DNA polymerase and RNase H activity. The RNase H activity of HIV RT catalyzes the hydrolysis of the RNA strand of RNA.DNA hybrids. While the domain that carries out the RNase H activity in HIV RT can be expressed as an independent, folded polypeptide, it is inactive as an RNase H. Here, we report the overexpression and purification of an active, recombinant HIV RNase H domain in which the sequence corresponding to the Escherichia coli RNase H1 basic helix/loop has been substituted for the corresponding sequence of HIV RNase H. The resulting polypeptide (RNH102) has Mn(2+)-dependent RNase H activity and is more stable than the independently expressed wild-type HIV RNase H domain.
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PMID:Substitution of a highly basic helix/loop sequence into the RNase H domain of human immunodeficiency virus reverse transcriptase restores its Mn(2+)-dependent RNase H activity. 753 29

A ribonuclease H activity from human placenta has been separated by ion exchange chromatography from the major RNase HI enzyme. Additional chromatographic steps allowed further purification, more than 3,000 fold compared to the crude extract in which it represents about 15% of the total RNase H activity. The enzyme requires Mg2+ ions for its activity, is strongly inhibited by the addition of Mn2+ ions or other divalent transition metal ions, and exhibits a pH optimum between 8.5 and 9. It shows a strong sensitivity to the SH-blocking agent N-ethylmaleimide. It has a strict specificity for double-stranded RNA-DNA duplexes and exhibits neither single-stranded nor double-stranded RNase (or DNase) activities. Therefore, this enzyme displays the characteristics of class II RNase H and is now termed RNase HII. Renaturation gel assays and gel filtration experiments proved a monomeric structure for the active enzyme with a native molecular weight of about 33 kDa. The human RNase HII acts as an endonuclease and releases oligoribonucleotides with 3'-OH and 5'-phosphate ends. It is therefore a candidate for the RNase H-mediated effect of antisense oligodeoxynucleotides.
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PMID:Purification and characterization of human ribonuclease HII. 781 13

Recently we have shown that the major isoform of RNase H in human cells, RNase H1, is able to cleave DNA substrates containing a single RNA-DNA base pair, an activity which appears to be involved in an excision repair system for the removal of ribose residues misincorporated into DNA. In the present work we have further characterized the substrate specificity of the enzyme. DNA substrates containing all four ribonucleotides are cleaved by the enzyme. A RNA-DNA base pair is not required for substrate recognition. RNA residues present within a mismatch or in a RNA-RNA base pair are also cleaved. The principal structural feature for recognition by the enzyme may simply be the presence of the 2'-OH group of the ribose residue adjacent to the cleavage site.
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PMID:Substrate specificity of human RNase H1 and its role in excision repair of ribose residues misincorporated in DNA. 838 11

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