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)

Activities of the hepadnavirus polymerases are known to include those of DNA polymerase, reverse transcriptase and RNase H. To date, it has been difficult or impossible to clone and express the product as an active enzyme. In this study, full length capped RNA encoding Duck Hepatitis B Virus (DHBV) polymerase was produced by in vitro transcription from a T7 promoter. The RNA was translated in a rabbit reticulocyte lysate system and produced an 35S-Methionine labelled 79 Kd band on SDS-polyacrylamide gel electrophoresis. The translation product showed DNA polymerase and reverse transcriptase activities on exogenous templates (respectively) of DNA or RNA with random DNA hexamer primers. The same RNA transcripts were also microinjected into Xenopus oocytes, but appeared to be toxic and gave no detectable translation product. Production of hepadnavirus polymerase by in vitro transcription/translation may provide a useful tool for structure/function and pharmacological studies on this important group of polymerases.
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PMID:Duck hepatitis B virus polymerase produced by in vitro transcription and translation possesses DNA polymerase and reverse transcriptase activities. 128 90

A duck hepatitis B virus (DHBV) genome cloned from a domestic duck from the People's Republic of China has been sequenced and exhibits no variation in sequences known to be important in viral replication or generation of gene products. Intrahepatic transfection of a dimer of this viral genome into ducklings did not result in viremia or any sign of virus infection, indicating that the genome was defective. Functional analysis of this mutant genome, performed by transfecting the DNA into a chicken hepatoma cell line capable of replicating wild-type virus, indicated that viral RNA is not encapsidated. However, virus core protein is made and can assemble into particles in the absence of encapsidation of viral nucleic acid. Using genetic approaches, it was determined that a change of cysteine to tyrosine in position 711 in the polymerase (P) gene C terminus led to this RNA-packaging defect. By site-directed mutagenesis, it was found that while substitution of Cys-711 with tryptophan also abolished packaging, substitution with methionine did not affect packaging or viral replication. Therefore, Cys-711, which is conserved in all published sequences of DHBV, may not be involved in a disulfide bridge structure essential to viral RNA packaging or replication. Our results, showing that a missense mutation in the region of the DHBV polymerase protein thought to be primarily the RNase H domain results in packaging deficiency, support the previous findings that multiple regions of the complex hepadnaviral polymerase protein may be required for viral RNA packaging.
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PMID:Naturally occurring point mutation in the C terminus of the polymerase gene prevents duck hepatitis B virus RNA packaging. 130 4

The non-enveloped bacilliform viruses are the second group of plant viruses known to possess a genome consisting of circular double-stranded DNA. We have characterized the viral transcript and determined the complete sequence of the genome of Commelina mellow mottle virus (CoYMV), a member of this group. Analysis of the viral transcript indicates that the virus encodes a single terminally-redundant genome-length plus 120 nucleotide transcript. A fraction of the transcripts is polyadenylated, although the majority of the transcript is not polyadenylated. Analysis of the genome sequence indicates that the genome is 7489 bp in size and that the transcribed strand contains three open reading frames capable of encoding proteins of 23, 15 and 216 kd. The function of the 25 and 15 kd proteins is unknown. Similarities between the 216 kd polypeptide and the cauliflower mosaic virus coat protein and protease/reverse transcriptase polyprotein suggest that the 216 kd polypeptide is a polyprotein that is proteolytically processed to yield the virion coat protein, a protease, and replicase (reverse transcriptase and ribonuclease H). Each strand of the CoYMV genome is interrupted by site-specific discontinuities. The locations of the 5'-ends of these discontinuities, and the presence and location of a region on the CoYMV transcript capable of annealing with the 3'-end of cytosolic initiator methionine tRNA are consistent with replication by reverse transcription. We have demonstrated that a construct containing 1.3 CoYMV genomes is infective when introduced into Commelina diffusa, the host for CoYMV, using Agrobacterium-mediated infection.
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PMID:Properties of Commelina yellow mottle virus's complete DNA sequence, genomic discontinuities and transcript suggest that it is a pararetrovirus. 169 3

Destabilizing events required for subsequent cotranslational disassembly of tobacco mosaic virus (TMV) particles in vitro were studied. Brief treatment of U-32P-labelled TMV (strain vulgare or U2) with 1% SDS exposed only 2.5% of the RNA (160 5' nucleotides) in a susceptible subpopulation of virions. Limited uncoating occurred almost immediately and appeared to be synchronous because the amount of 5' oligonucleotide marker (omega) recovered remained constant throughout a 15 min period in SDS. Additional RNase T1-sensitive oligonucleotides were exposed only after 1 to 2 min in SDS. Coat protein (CP) subunits released from virions 'destabilized' by ultracentrifugation at between pH 7.2 and 9.2 were quantified using L-[35S]methionine-labelled particles of TMV strain U2. CP recovery and virus particle translation results were consistent with increasing numbers of virions uncoating for approximately 200 nucleotides. In the presence of sparsomycin (SPN), the TMV strain vulgare 5' leader and the first AUG codon can bind two 80S ribosomes. Electron microscopy of pH 7.5-treated TMV particles incubated in SPN-treated wheatgerm extract or rabbit reticulocyte lysate, showed that approximately 10% of virions complexed with one ribosome and approximately 10% with two bound ribosomes, confirming that omega at least had been uncoated. Nucleocapsids in these complexes were shorter than untreated TMV by 9 to 10 nm (i.e. equivalent to 192 to 217 nucleotides exposed). The template activities of virions pretreated at pH 7.2 to 9.2 were destroyed by RNase H when short cDNAs were hybridized to sequences at, or immediately 3' to, the first AUG codon. We propose that the complete 5' leader of TMV RNA interacts weakly with CP subunits and that this micro-instability is due to the absence of G residues and is essential for initiation of cotranslational virus disassembly.
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PMID:Complete uncoating of the 5' leader sequence of tobacco mosaic virus RNA occurs rapidly and is required to initiate cotranslational virus disassembly in vitro. 184 66

The virally encoded protease of human immunodeficiency virus (HIV) is responsible for specific cleavage events leading to the liberation of the enzymes reverse transcriptase, integrase, ribonuclease H, and the core proteins from the gag-pol and gag polyprotein precursors. Utilizing gag polyprotein synthesized in vitro, we have shown that this substrate is sequentially cleaved by purified HIV protease to yield products that on the basis of their sizes and immunoreactivities correspond to p15, p6, p7, p17, and finally mature p24. We have placed unique restriction sites flanking the p17-p24 domain in order to facilitate replacement of cleavage site sequences by utilizing oligonucleotide cassettes. Replacement of the rapidly cleaved methionine-methionine bond at the p24-p15 junction with tyrosine-proline or replacement of the tyrosine-proline bond at the p17-p24 junction with methionine-methionine results in sites that cannot be efficiently cleaved. A basic amino acid at the p17-p24 scissile bond is not tolerated. Replacement of this cleavage site with an inverted repeat amino acid sequence gives intermediate rates of cleavage. In an attempt to convert the p17-p24 domain into a p24-p15 domain, residues flanking the scissile bond were exchanged in an expanding iterative fashion. When four residues flanking the scissile bond had been replaced, the rate of cleavage relative to that of the native p17-p24 sequence was increased fourfold. The cleavage rate of the native p24-p15 sequence is still some 10-fold greater than that of the p17-p24 sequence, suggesting that more-distant residues significantly affect the cleavage rate.
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PMID:Mutagenesis of protease cleavage sites in the human immunodeficiency virus type 1 gag polyprotein. 198 79

Ribonuclease H (RNase H) from Escherichia coli is an endonuclease that specifically degrades the RNAs of RNA:DNA hybrids. The enzyme is a single polypeptide chain of 155 amino acid residues, of which 4 are methionines. To solve the crystallographic three-dimensional structure of E. coli RNase H by the multi-wavelength anomalous diffraction technique, we have constructed methionine auxotrophic strains of E. coli that overexpress selenomethionyl RNase H. MIC88 yields about 10 mg of selenomethionyl RNase H per liter of culture, which is comparable to the overexpression of the natural recombinant protein. We have purified both proteins to homogeneity and crystallized them isomorphously in the presence of sulfate. These are Type I crystals of space group P2(1)2(1)2(1) with the cell parameters a = 41.8 A, b = 86.4 A, c = 36.4 A, one monomer per asymmetric unit, and approximately 36% (v/v) solvent. Crystals of both proteins diffract to beyond 2-A Bragg spacings and are relatively durable in an x-ray beam. On replacement of sulfate with NaCl, crystals of natural RNase H grow as Type I' (very similar to Type I) at pH between 7.0 and 8.0; at pH 8.8, crystals of Type II are obtained in space group P2(1)2(1)2(1) with a = 44.3 A, b = 87.3 A, and c = 35.7 A. Type II crystals can be converted to Type I by soaking in phosphate buffer. RNase H crystals of Type II have also been reported by Kanaya et al. (Kanaya, S., Kohara, A., Miyakawa, M., Matsuzaki, T., Morikawa, K., and Ikehara, M. (1989) J. Biol. Chem. 264, 11546-11549).
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PMID:Expression, purification, and crystallization of natural and selenomethionyl recombinant ribonuclease H from Escherichia coli. 219 40

The lily retrotransposon del 1-46 is 9345 base pairs (bp) long. It has long terminal repeats (LTRs) of 2406 bp (left) and 2415 bp (right), which differ in sequence by 1.4%. Sequences similar to those involved in priming DNA synthesis in retroviruses occur in the internal region. Near the left LTR is a sequence complementary to 18 residues at the 3' end of methionine initiator tRNA of three plant species, and a run of 12 purines occurs close to the right LTR. One internal reading frame of del 1-46 has relatively few stop codons. The 1462-codon product from this frame has motifs, in N to C terminus order, corresponding to those identified with RNA binding, protease, reverse transcriptase, RNase H, and integrase functions in retroviruses and certain other retrotransposons. Amino acid sequence comparisons of three conserved pol regions show del to be closely related to the Ty3 retrotransposon of yeast (37-40% identity). del is also related to the gypsy group of Drosophila (17.6, 297, gypsy/mdg4, and 412), showing closer identity with their reverse transcriptase (32-38%) and RNase H (36-45%) domains than with their integrase domain (21-26%). It is proposed that a gypsy group ancestor exchanged the integrase region with a more distantly related element since its divergence from a del/Ty3 common ancestor. The occurrence of related retrotransposons in three different kingdoms (plants, animals, and fungi) strongly implies their horizontal transmission in recent evolutionary time.
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PMID:Plant retrotransposon from Lilium henryi is related to Ty3 of yeast and the gypsy group of Drosophila. 254 87

An mRNA-dependent reticulocyte lysate has been used to translate foot-and-mouth disease virus RNA in vitro. Polypeptides P16, P20a, and P88, which have been shown to be derived from the 5' end of the RNA by pactamycin mapping experiments with infected cells, were preferentially synthesized in vitro. Removal of VPg, the small protein covalently linked to the 5' end of the genome RNA, had no effect on the translation of the RNA. The two RNA fragments (L and S) produced by specific digestion of the polycytidylic acid [poly(C)] tract with RNase H were also translated in vitro. The L fragment, consisting of RNA to the 3' side of the poly(C) tract and including the polyadenylic acid [poly(A)] tract, directed the synthesis of the same products as those made by full-length RNA. However, no small defined products were produced when the S fragment, which contains the 5' end of the RNA, was translated. These results show that the major initiation site for protein synthesis on foot-and-mouth disease virus RNA is to the 3' side of the poly(C) tract. Furthermore, the use of N-formyl [35S]methionine tRNAfMet as a label for the initiation peptides showed that the major polypeptide labeled in lysates primed with both full-length RNA and the L fragment was P16, i.e., the protein nearest the initiation site for translation as deduced from pactamycin mapping experiments. Fragments of RNA were also translated in vitro. Those containing the poly(C) tract gave products similar to those produced when full-length RNA was translated. The polypeptides synthesized when fragments containing the poly(A) tract were used, however, did not resemble those made from full-length RNA.
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PMID:Location of the initiation site for protein synthesis on foot-and-mouth disease virus RNA by in vitro translation of defined fragments of the RNA. 624 54

By in vitro recombination we have constructed hybrid plasmids capable of complementing a conditional lethal mutator mutation, dnaQ49, in Escherichia coli K12. The dnaQ+ plasmids consist of a full-length pBR322 DNA and a 1.5-kilobase DNA fragment derived from the E. coli chromosome. Specific labeling of plasmid-encoded proteins by the maxicell method revealed that the 1.5-kilobase insert codes for two proteins, one whose molecular weight is 25,000 [the 25-kilodalton (kDal) protein] and the other whose molecular weight is 21,000 (the 21-kDal protein). Because insertion of gamma delta sequence into the dnaQ gene of the plasmid resulted in disappearance of the 25-kDal protein, it was concluded that the 25-kDal protein is the dnaQ gene product. The 21-kDal protein was identified as RNase H on the basis of the following evidence. (i) Cells harboring the dnaQ+ plasmids, with or without the gamma delta insertion in the dnaQ gene, had a 5- to 7-fold higher level of RNase H activity than cells harboring pBR322. (ii) After induction of cells that are lysogenized with dnaQ+-transducing lambda phages, RNase H activity increased considerably. A similar high level of RNase H activity was observed with transducing phages whose dnaQ function was inactivated by insertion of a transposon, Tn3, into the gene, (iii) The plasmid-encoded RNase H, labeled with [35S]methionine, was purified in a manner essentially similar to that of the chromosome-encoded enzyme. These results suggest that the dnaQ gene and the structural gene for RNase H, termed gene rnh, are closely linked and located at 5 min on the linkage map.
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PMID:Identification of the dnaQ gene product and location of the structural gene for RNase H of Escherichia coli by cloning of the genes. 626 4

Region 980-1061 in human 18S rRNA was chosen on the basis of our previous results indicating, that the cross-linking sites of alkylating mRNA analogs are located within this region. In the present study, we have used 10 DNA 15-mers complementary to various overlapping sequences within the 18S rRNA positions 980-1061. Their ability to bind selectively at the desired rRNA sequences was proved by hydrolysis of 18S rRNA within heteroduplexes with the corresponding probes by RNase H. Only four of the probes were able to bind to 40S subunits indicating, that the corresponding 18S rRNA sequences 980-994, 987-1001, 1025-1039 and 1032-1046 are exposed within the subunits. None of the probes inhibited tRNA-dependent binding of oligo(U) messengers to 40S subunits. Nevertheless, two probes (complementary to 18S rRNA sequences 987-1001 and 1025-1039) being covalently attached to 40S subunits, inhibited translation of poly(U) by human 80S ribosomes in a cell-free system. The binding of messenger trinucleotide in the complex pAUG.40S.Met-tRNA.eIF-2.GTP was strongly affected by the same oligomers. Thus 987-1001 and 1025-1039 18S rRNA sequences are supposed to be involved in interaction with mRNA in the course of translation.
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PMID:[Functional value of 980-1061 sequences of human 18S ribosomal RNA using complementary DNA probes]. 772 52

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