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Drug
Enzyme
Compound
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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)
The possible allelic relationship between dasF (dnaA suppressor) and sdrA/rnh (stable DNA replication/
RNase H
) mutations was examined. dasF mutations could not only suppress various dnaA(ts) mutations, but also the insertional inactivation of the dnaA gene or deletion of the oriC sequence, as could sdrA mutations. dasF mutants were found to exhibit the stable DNA replication phenotype, and the sensitivity to rich media, of sdrA mutants. The dasF and sdrA mutations were mapped very closely between metD and proA on the E. coli genetic map. The mutations were recessive to the wild-type allele for all the above phenotypes. It was concluded that dasF is allelic to sdrA/mh.
Mol
Gen
Genet 1984
PMID:dnaA suppressor (dasF) mutants of Escherichia coli are stable DNA replication (sdrA/rnh) mutants. 609 72
The avian RNA tumour virus structural protein p12 was purified from avian myeloblastosis virus (AMV) by nucleic acid affinity chromatography to apparent homogeneity as judged from SDS--polyacrylamide gel electrophoresis. A filter binding assay was used for the identification of p12. High concentrations of p12 precipitated nucleic acids out of solution in the absence of MgCl2. Binding of p12 to single-stranded nucleic acids protected them from digestion with nucleases and resulted in a hyperchromic effect. These phenomena were reversible in the presence of salt. The affinity of p12 to nucleic acids was determined by competing for the binding of p12 to denatured radioactive DNA by various other nuclei acids. It was found that p12 bound preferentially to single-stranded nucleic acids and showed a higher affinity to poly(rI) than to poly(rC) and poly(rA). Purified RNA-dependent DNA polymerase activity from AMV was stimulated up to sixfold by p12, depending on the template. Solubilization of RNA in RNA--DNA hybrids by
RNase H
was inhibited in the presence of p12.
J
Gen
Virol 1981 Aug
PMID:Properties of the avian viral protein p12. 616 96
A series of temperature-resistant revertants were isolated from strains of Escherichia coli K12 carrying a temperature-sensitive mutation in the dnaA gene. Four independent revertants were found which still carry the original ts mutation. The ability of these strains to grow at high temperature is due to a suppressor mutation, called sin. All four sin mutations are located between the genes metD and proA on the genetic map of E. coli, which suggests that they all affect the same gene. The sin suppressors, which were isolated for their ability to suppress one dnaA mutation, are also able to suppress three other temperature-sensitive dnaA mutations, but they are not able to suppress mutations in either of the two genes dnaB or dnaC. The sin suppressors alone do not confer any particular phenotype on bacteria, but they are deficient in the enzyme
RNase H
. On the basis of these findings we propose that the function of the dnaA protein is to protect a DNA-RNA hybrid at the origin of replication against
RNase H
.
Mol
Gen
Genet 1984
PMID:Initiation of DNA replication in Escherichia coli: RNase H-deficient mutants do not require the dnaA function. 620 56
The nucleotide sequence of a region of plasmid RSF 1030 that includes the origin of DNA replication was determined using the DNA of a small derivative, pST19. The nucleotide sequence of the pST 19 origin region is very similar to that of the ColE1 origin except for a 25 base pair (bp) deletion about 350 bp upstream of the origin and a considerable difference in the region between 400 and 600 bp upstream of the origin. Replication of pST19 starts at one of three consecutive nucleotides (dA, dA or dC) located at a unique position in the region where the nucleotide sequence is identical to that of the ColE1 origin. There are two major sites of initiation of transcription in the region. Transcription from one of the sites yields the primer precursor that can be cleaved by
RNase H
to form the primer of about 530 nucleotides long. Transcription from the other site proceeds on the opposite strand and terminates close to the primer initiation site to yield species I RNA (or RNA I) about 105 nucleotides long. The presumed RNA polymerase binding sites in the promoters of these transcripts differ from those of the corresponding ColE1 transcripts. Incompatibility specified by pST19 is different from that specified by ColE1. Hypothetical peptides encoded by the origin region of these plasmids are unlikely to be involved in the determination of incompatibility. It has been shown that RNA I is an incompatibility-group specific inhibitor of primer formation. Despite a significant difference in nucleotide sequence, the primer RNA and RNA I of pST19 can be folded into structures analogous to those of the ColE1 transcripts.
Mol
Gen
Genet 1982
PMID:Origin of replication of Escherichia coli plasmid RSF 1030. 629 68
Escherichia coli rnh mutants were isolated using localized mutagenesis and selective measurements of
RNase H
activity in mutagenized cell extracts with [3H]poly(rC) X poly(dG) as substrate.
RNase H
activity in extracts of one mutant, ON152 (rnh-91), was undetectable (less than 0.05% of that of wild-type cells). This mutant formed small colonies at 43 degrees C. At this temperature, accumulation of nascent fragments was more prominent in the rnh-91 X polA4113 double mutant than in the polA4113 mutant; however, no accumulation was found in the rnh single mutant at 43 degrees C. Unlike the 1-3 nucleotide primer RNA found on nascent fragments of polA4113 cells, primers from the rnh-91 X polA4113 cells ranged from one to about ten bases. These results suggest that the 5' leads to 3' exonuclease activity of DNA polymerase I plays a major role in removal of primer RNA and that
RNase H
functions in an auxiliary role, excising the 5'-portion of longer primers. The rnh mutant supports replication of ColE1-type plasmids. A possible mechanism of replication of such plasmids in rnh mutants and a role of
RNase H
in the initiation of chromosomal replication are discussed.
Mol
Gen
Genet 1984
PMID:Function of RNase H in DNA replication revealed by RNase H defective mutants of Escherichia coli. 631 61
A speculative model for reverse transcription of a viral RNA template into proviral dsDNA is presented. It has two essential features that are not included in current models: (i) the functional complex is dimeric, with two polymerization/
RNase H
sites and (ii) two templates are initially attached to the complex at their 3' ends. The model also has the optional features that (iii) the complex is rotationally symmetrical and (iv) attached to the virion core. The model attempts to explain why the viral genome is dimeric, the specificity of the 'jumps' between the ends of templates and how recombination occurs so readily. It also suggests novel targets for drug therapy during retroviral infection, for example, in AIDS.
J
Gen
Virol 1993 Apr
PMID:A model for reverse transcription by a dimeric enzyme. 768 51
Genomic length cDNAs of papaya mosaic virus (PMV) RNA were generated utilizing reverse transcriptase (
RNase H
-) for first strand synthesis, Sequenase for second strand synthesis and primers specific for the 5' and 3' termini of the viral genome. These cDNAs were cloned into plasmid pUC18 and infectious RNA transcripts were synthesized in vitro from a bacteriophage T7 RNA polymerase promoter incorporated into the 5' specific primer. The infectivity of transcripts was 16% that of native PMV RNA. Increasing the poly(A) tail length from A24 to A71 produced a 43% increase in infectivity. Transcripts synthesized with or without an m7GpppG cap structure were biologically active although uncapped transcripts were much less infectious. The addition of up to 2434 non-viral nucleotides at the 3' end of transcripts decreased but did not abolish infectivity. Insertions of two amino acid residues within the polymerase coding region inactivated viral transcripts. A single amino acid deletion within the capsid protein (CP) produced local lesions of a reduced size as compared to native PMV RNA. Viral particles could not be observed in crude extracts from lesions produced by this deletion mutant suggesting that it exists as a naked RNA species within the host. Mutations to the CP suggest that it is required not only for viral assembly but also for some other unidentified function(s) during the replication cycle.
J
Gen
Virol 1993 Jun
PMID:Infectious RNA transcripts derived from cloned cDNA of papaya mosaic virus: effect of mutations to the capsid and polymerase proteins. 768 73
Cassava vein mosaic virus (CVMV) was found to be widespread throughout the north-eastern region of Brazil. The complete sequence of CVMV was determined, and the genome was 8158 bp in size. A cytosolic initiator methionine tRNA (tRNA met1)-binding site that probably acts as a primer for minus-strand synthesis was present. The genome contained five open reading frames that potentially encode proteins with predicted molecular masses of 186 kDa, 9 kDa, 77 kDa, 24 kDa and 26 kDa. The putative 186 kDa protein had regions with similarity to the zinc finger-like RNA-binding domain that is a common element in the capsid proteins and similarity to the intercellular transport domain of the plant pararetroviruses. The predicted 77 kDa protein had regions with similarity to aspartic proteases, reverse transcriptase and
RNase H
of pararetroviruses. This gene order was confirmed by the amplification of similar PCR products from total DNA extracted from CVMV-infected cassava plants. The genomic organization of CVMV was different from the organization of either the caulimoviruses or badnaviruses. In comparisons of the regions with the reverse transcriptase motif, CVMV was grouped between the caulimoviruses and badnaviruses. It appears that CVMV is distinct from the other well-characterized plant pararetroviruses.
J
Gen
Virol 1995 May
PMID:Characterization of cassava vein mosaic virus: a distinct plant pararetrovirus. 773 Aug 13
The transforming genes E6 and E7 of human papillomavirus (HPV) type 16 and other HPV types are expressed from a bicistronic mRNA with a characteristic spacing of 3 to 6 bp between the termination codon of E6 and the initiation codon of E7. Plasmid pSP64E6E7 which contains the reading frames of both E6 and E7 was constructed in order to study the expression of both proteins in a coupled transcription/rabbit reticulocyte translation system. Both E6 and E7 proteins were expressed simultaneously. This translation could be interfered with by antisense oligonucleotides corresponding to various regions of the transcript. Antisense oligonucleotides targeted at sequences flanking either side of the translation initiation codon of the E6 open reading frame were effective in inhibiting the synthesis of both proteins, whereas oligonucleotides complementary to the coding regions downstream of the first start codon showed either a considerably reduced effect or none at all. In particular, there was limited inhibition of E7 translation by antisense oligonucleotides flanking the translation start region of the E7 gene. In the presence of
RNase H
, it was possible to selectively inhibit the synthesis of either E6 or E7 by several gene-internal antisense oligonucleotides. We conclude that HPV16 E6-E7 bicistronic mRNA is fully functional and that both proteins are translated with equal efficiency via the scanning mechanisms with reinitiation at the second open reading frame. In addition, both AE6 and AE7 may have therapeutical potential as they are capable of inhibiting the proliferation of CaSki cells which contain the HPV16 genome.
J
Gen
Virol 1994 Oct
PMID:Mechanism of translation of the bicistronic mRNA encoding human papillomavirus type 16 E6-E7 genes. 793 Nov 52
In Escherichia coli, eight kinds of chromosome-derived DNA fragments (named Hot DNA) were found to exhibit homologous recombinational hotspot activity, with the following properties. (i) The Hot activities of all Hot DNAs were enhanced extensively under
RNase H
-defective (rnh) conditions. (ii) Seven Hot DNAs were clustered at the DNA replication terminus region on the E. coli chromosome and had Chi activities (H. Nishitani, M. Hidaka, and T. Horiuchi, Mol.
Gen
. Genet. 240:307-314, 1993). Hot activities of HotA, -B, and -C, the locations of which were close to three DNA replication terminus sites, the TerB, -A, and -C sites, respectively, disappeared when terminus-binding (Tau or Tus) protein was defective, thereby suggesting that their Hot activities are termination event dependent. Other Hot groups showed termination-independent Hot activities. In addition, at least HotA activity proved to be dependent on a Chi sequence, because mutational destruction of the Chi sequence on the HotA DNA fragment resulted in disappearance of the HotA activity. The HotA activity which had disappeared was reactivated by insertion of a new, properly oriented Chi sequence at the position between the HotA DNA and the TerB site. On the basis of these observations and positional and orientational relationships between the Chi and the Ter sequences, we propose a model in which the DNA replication fork blocked at the Ter site provides an entrance for the RecBCD enzyme into duplex DNA.
...
PMID:The DNA replication fork blocked at the Ter site may be an entrance for the RecBCD enzyme into duplex DNA. 804 97
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