Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.26.4 (RNase H)
 2,751 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The nucleoli of vertebrate cells contain a number of small RNAs that are generated by the processing of intron fragments of protein-coding gene transcripts. The host gene (UHG) for intro-encoded human U22 is unusual in that it specifies a polyadenylated but apparently noncoding RNA. Depletion of U22 from Xenopus oocytes by oligonucleotide-directed ribonuclease H targeting prevented the processing of 18S ribosomal RNA (rRNA) at both ends. The appearance of 18S rRNA was restored by injection of in vitro-synthesized U22 RNA. These results identify a cellular function for an intron-encoded small RNA.
Science 1994 Dec 02
PMID:Requirement for intron-encoded U22 small nucleolar RNA in 18S ribosomal RNA maturation. 798 25

The splicing activities of 5-fluorouracil (FUra)-substituted U2 and U6 small nuclear RNAs (snRNAs) were examined in an in vitro splicing system. Yeast splicing extracts were specifically depleted of endogenous U2 and U6 snRNAs by antisense oligonucleotide-directed RNase H hydrolysis. Splicing activity was recovered when the extracts were reconstituted with synthetic U2 and U6 snRNAs. However, U2 snRNA with all uracils substituted with FUra (FU2) did not restore any splicing activity. Nondenaturing gel electrophoresis showed that FU2 failed to promote the assembly of spliceosome complexes. The ability of U2 snRNA to restore splicing in U2-depleted extracts increased as FUra content decreased but was still only 60% of control activity at 25% substitution of uracils with FUra. Addition of FU2 to nondepleted extracts caused strong inhibition of splicing accompanied by increased degradation of the pre-mRNA, suggesting that FU2 forms an inactive complex with a protein splicing factor that normally binds to the pre-mRNA. FU6 restored full splicing activity to U6-depleted extracts, but at a 5-fold higher concentration than U6 snRNA. These results demonstrate that the incorporation of FUra can impair the functions of catalytic RNA molecules.
J Biol Chem 1994 Dec 16
PMID:Incorporation of 5-fluorouracil into U2 and U6 snRNA inhibits mRNA precursor splicing. 798 72

To obtain more precise insight into the Mg(2+)-binding site essential for RNase HI catalytic activity, we have determined the crystal structure of E. coli RNase HI in complex with Mg2+. The analyzed cocrystal, which is not isomorphous with the Mg(2+)-free crystal previously refined at 1.48 A resolution, was grown at a high MgSO4 concentration more than 100 mM so that even weakly bound Mg2+ sites could be identified. The structure was solved by the molecular replacement method, using the Mg(2+)-free crystal structure as a search model, and was refined to give a final R-value of 0.190 for intensity data from 10 to 2.8 A, using the XPLOR and PROLSQ programs. The backbone structures are in their entirety very similar to each other between the Mg(2+)-bound and the metal-free crystals, except for minor regions in the enzyme interface with the DNA/RNA hybrid. The active center clearly revealed a single Mg2+ atom located at a position almost identical to that previously found by the soaking method. Although the two metal-ion mechanism had been suggested by another group (Yang, W., Hendrickson, W.A., Crouch, R.J., Satow, Y. Science 249:1398-1405, 1990) and partially supported by the crystallographic study of inactive HIV-1 RT RNase H fragment (Davies, J.F., II, Hostomska, Z., Hostomsky, Z., Jordan, S.R., Matthews, D. Science 252:88-95, 1991), the present result excludes the possibility that RNase HI requires two metal-binding sites for activity. In contrast to the features in the metal-free enzyme, the side chains of Asn-44 and Glu-48 are found to form coordinate bonds with Mg2+ in the metal-bound crystal.
Proteins 1993 Dec
PMID:Crystal structure of Escherichia coli RNase HI in complex with Mg2+ at 2.8 A resolution: proof for a single Mg(2+)-binding site. 810 76

The 21 S complex of enzymes for DNA synthesis in the combined low salt nuclear extract-post microsomal supernatant from HeLa cells [Malkas et al. (1990) Biochemistry 29:6362-6374] was purified by poly (ethylene glycol) precipitation, Q-Sepharose chromatography, Mono Q Fast Protein Liquid Chromatography (FPLC), and velocity gradient centrifugation. The procedure gives purified enzyme complex at a yield of 45%. The 21 S enzyme complex remains intact and functional in the replication of simian virus 40 DNA throughout the purification. Sedimentation analysis showed that the 21 S enzyme complex exists in the crude HeLa cell extract and that simian virus 40 in vitro DNA replication activity in the cell extract resides exclusively with the 21 S complex. The results of enzyme and immunological analysis indicate that DNA polymerase alpha-primase, a 3',5' exonuclease, DNA ligase I, RNase H, and topoisomerase I are associated with the purified enzyme complex. Denaturing polyacrylamide gel electrophoresis of the purified enzyme complex showed the presence of about 30 polypeptides in the size range of 300 to 15 kDa. Immunofluorescent imaging analysis, with antibodies to DNA polymerase alpha,beta and DNA ligase I, showed that polymerase alpha and DNA ligase I are localized to granular-like foci within the nucleus during S-phase. In contrast, DNA polymerase beta, which is not associated with the 21 S complex, is diffusely distributed throughout the nucleoplasm.
J Cell Biochem 1993 Dec
PMID:Further purification and characterization of a multienzyme complex for DNA synthesis in human cells. 830 Jul 57

1. The effects of variations in substrates on the kinetic properties of Escherichia coli RNase H were studied using antisense oligonucleotides of various types hybridized to complementary oligoribonucleotides. The enzyme displayed minimal sequence preference, initiated cleavage through an endonucleolytic mechanism near the 3' terminus of the RNA in a DNA-RNA chimera and then was processively exonucleolytic. Phosphorothioate oligodeoxynucleotides hybridized to RNA supported cleavage more effectively than phosphodiester oligodeoxynucleotides. Oligonucleotides comprised of 2'-methoxy-, 2'-fluoro- or 2'-propoxy-nucleosides did not support RNase H1 activity. 2. The Km and Vmax. of cleavage of RNA duplexes with full phosphorothioate oligodeoxynucleotides were compared with methoxy-deoxy 'gapmers', i.e.; oligonucleotides with 2'-methoxy wings surrounding a deoxynucleotide centre. Such structural modifications resulted in substantial increases in affinity, but significant reductions in cleavage efficiency. The initial rates of cleavage increased as the deoxynucleotide gap size was increased. Multiple deoxynucleotide gaps increased the Vmax. but had little effect on Km. 3. The effects of several base modifications on the site of initial cleavage, processivity and initial rate of cleavage were also studied.
Biochem J 1995 Dec 01
PMID:Kinetic characteristics of Escherichia coli RNase H1: cleavage of various antisense oligonucleotide-RNA duplexes. 852 76

A retrotransposon from the fungal plant pathogen Fusarium oxysporum f. sp. lycopersici has been isolated and characterized. The element, designated skippy (skp) is 7846 bp in length, flanked by identical long terminal repeats (LTR) of 429 bp showing structural features characteristic of retroviral and retrotransposon LTRs. Target-site duplications of 5 bp were found. Two long overlapping open reading frames (ORF) were identified. The first ORF, 2562 bp in length, shows homology to retroviral gag genes. The second ORF, 3888 bp in length, has homology to the protease, reverse transcriptase. RNase H and integrase domains of retroelement pol genes in that order. Sequence comparisons and the order of the predicted proteins from skippy indicate that the element is closely related to the gypsy family of LTR-retrotransposons. The element is present in similar copy numbers in the two races investigated, although RFLP analysis showed differences in banding patterns. The number of LTR sequences present in the genome is higher than the number of copies of complete elements, indicating excision by homologous recombination between LTR sequences.
Mol Gen Genet 1995 Dec 20
PMID:Skippy, a retrotransposon from the fungal plant pathogen Fusarium oxysporum. 854 29

P stereoregular phosphorothioate analogs of pentadecamer 5'-d(AGATGTTTGAGCTCT)-3' were synthesized by the oxathiaphospholane method. Their diastereomeric purity was assigned by means of enzymatic degradation with nuclease P1 and, independently, with snake venom phosphodiesterase. DNA-RNA hybrids formed by phosphorothioate oligonucleotides (PS-oligos) with the corresponding complementary pentadecaribonucleotide were treated with bacterial RNase H. The DNA-RNA complex containing the PS-oligo of [all-RP] configuration was found to be more susceptible to RNase H-dependent degradation of the pentadecaribonucleotide compared with hybrids containing either the [all-SP] counterpart or the so called 'random mixture of diastereomers' of the pentadeca(nucleoside phosphorothioate). This stereodependence of RNase H action was also observed for a polyribonucleotide (475 nt) hybridized with these phosphorothioate oligonucleotides. The results of melting studies of PS-oligo-RNA hybrids allowed a rationalization of the observed stereodifferentiation in terms of the higher stability of heterodimers formed between oligoribonucleotides and [all-RP]-oligo(nucleoside phosphorothioates), compared with the less stable heterodimers formed with [all-SP]-oligo(nucleoside phosphorothioates) or the random mixture of diastereomers.
Nucleic Acids Res 1995 Dec 25
PMID:Stereodifferentiation--the effect of P chirality of oligo(nucleoside phosphorothioates) on the activity of bacterial RNase H. 855 57

Central the regulation and mechanism of class switch recombination is the understanding of the relationship between transcription and DNA recombination. We demonstrated previously, using mini-chromosome substrates, that physiologically oriented transcription is required for recombination to occur between switch regions. In this report, we demonstrate the formation of an RNA:DNA complex under in vitro transcription conditions for these same and other switch DNA fragments. We find that cell-free transcription of repetitive murine switch regions (Smu, S gamma 2b and S gamma 3) leads to altered DNA mobility on agarose gels. These altered mobilities are resistant to RNase A but sensitive to RNase H. Transcription in the presence of labeled ribonucleotides demonstrates the stable physical association of the RNA with the DNA. Importantly, complex formation only occurs upon transcription in the physiologic orientation. Reaban and Griffin [1990 Nature, 348, 342-344] found an RNA:DNA hybrid structure that was limited to an atypical 143 nucleotide purine region within a 2.3 kb S alpha segment. Here we demonstrate RNA:DNA hybrid formation in more typical switch sequences (lacking the atypical 143 nucleotide purine tract) from a variety of switch regions that are only 60-70% purine on the non-template strand. These results suggest a general model involving an RNA:DNA complex as an intermediate during class switch recombination.
Nucleic Acids Res 1995 Dec 25
PMID:RNA:DNA complex formation upon transcription of immunoglobulin switch regions: implications for the mechanism and regulation of class switch recombination. 855 58

The naturally occurring nucleotide 3-(3-amino-3-carboxy-propyl) uridine ("acp3U") at position 20:1 of lupin tRNAMet was coupled to a photoreactive diazirine derivative. Similarly, the 4-thiouridine at position 8 of Escherichia coli tRNAPhe was modified with an aromatic azide. Each of the derivatized tRNAs was bound to E. coli ribosomes in the presence of suitable mRNA analogues, under conditions specific for the A, P, or E sites. After photoactivation of the diazirine or azide groups, the sites of crosslinking from the tRNAs to 16S or 23S rRNA were analyzed by our standard procedures, involving a combination of ribonuclease H digestion and primer extension analysis. The crosslinked ribosomal proteins were also identified. The results for the rRNA showed a well-defined series of crosslinks to both the 16S and 23S molecules, the most pronounced being (1) an entirely A-site-specific crosslink from tRNA position 20:1 to the loop-end region (nt 877-913) of helix 38 of the 23S RNA (a region that has not so far been associated at all with tRNA binding), and (2) a largely P-site-specific crosslink from tRNA position 8 to nt 2111-2112 of the 23S RNA (nt 2112 being a position that has previously been identified in footprinting studies as belonging to the ribosomal E site). The data are compared with results from a parallel study of crosslinks from position 47 (also in the central fold of the tRNA), as well as with previously published crosslinks from the anticodon loop (positions 32, 34, and 37) and the CCA-end region (position 76, and the aminoacyl residue).
RNA 1995 Dec
PMID:The ribosomal environment of tRNA: crosslinks to rRNA from positions 8 and 20:1 in the central fold of tRNA located at the A, P, or E site. 859 57

In addition to the two usual eukaryotic elongation factors (EF-1 alpha and EF-2) fungal ribosomes need a third protein, elongation factor 3, for translation. EF-3 is essential for in vivo and in vitro protein synthesis. Functionally, EF-3 stimulates EF-1 alpha dependent binding of aminoacyl-tRNA to the ribosomal A site when E site is occupied by deacylated tRNA. EF-3 has intrinsic ATPase activity which is regulated by the functional state of the ribosome. EF-3 ATPase is activated by both 40S and 60S ribosomal subunits. However intact 80S ribosomes are needed for efficient activation of EF-3 ATPase. EF-3 appears to be an RNA binding protein with high affinity for polynucleotides containing guanosine rich sequences. To determine whether guanosine rich sequence of ribosomal RNA is involved in EF-3 binding, an antisense oligonucleotide dC6 was used to block EF-3 interaction with the ribosome. The oligonucleotide suppresses activation of EF-3 ATPase by 40S ribosomal subunit and not by the 60S or the 80S particles. Poly(U)-directed polyphenylalanine synthesis by yeast ribosomes is inhibited by dC6. To define the binding site of the oligonucleotide and presumably of EF-3 on 18S ribosomal RNA, hydrolysis of rRNA by RNase H was followed in the presence of dC6. These experiments reveal an RNase H cleavage site at 1094GGGGGG1099 sequence of 18S ribosomal RNA. This guanosine rich sequence of rRNA is suggested to be involved in EF-3 binding to yeast ribosome. Data presented in this communication suggest that the activity of EF-3 involved a direct interaction with the guanosine rich sequence of rRNA.
Indian J Biochem Biophys 1995 Dec
PMID:Interaction of yeast elongation factor 3 with polynucleotides, ribosomal RNA and ribosomal subunits. 871 1


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>