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)

Messenger RNA molecules 30-35 bases long, with sequences related to the 5'-region of cro-mRNA from lambda-phage, were prepared by T7 transcription from synthetic DNA templates. Each mRNA contained five or six internal uridine residues, which were transcribed using a mixture of UTP and thio-UTP. Initiation complexes were formed with Escherichia coli 30S ribosomes in the presence or absence of tRNA(fMet), and cross-linking of the thio-U residues was induced by UV irradiation at wavelengths greater than 300 nm. The cross-linked ribosomal proteins were identified immunologically, and cross-linked regions of the 16S RNA were isolated by excision with ribonuclease H and suitable deoxyoligonucleotides. In both cases, the particular thio-U residue involved in the cross-link was identified by ribonuclease T1 fingerprinting of the (radioactive) mRNA in the isolated cross-linked complex. The principal results were that, at thio-U positions upstream of the AUG codon, specific cross-linking occurred to protein S7 and to the 3'-terminus of the 16S RNA, in agreement with similar experiments using 70S ribosomes. Less specific cross-linking was observed to proteins S1, S18 and S21 at various positions within the mRNA. Six bases downstream from the AUG codon, a tRNA-dependent cross-link was found to position approximately 1050 of the 16S RNA, but--in contrast to similar experiments with 70S ribosomes--no cross-linking was found to the 1390-1400 region.
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PMID:The location of mRNA in the ribosomal 30S initiation complex; site-directed cross-linking of mRNA analogues carrying several photo-reactive labels simultaneously on either side of the AUG start codon. 165 Dec 32

Reverse transcription of the retroviral RNA genome begins with tRNA-primed synthesis of a minus-strand DNA, which subsequently acts as the template for the synthesis of plus-strand DNA. This plus-strand DNA is initiated at a unique location and makes use of a purine-rich RNA oligonucleotide derived by RNase H action on the viral RNA. To determine the variables that are relevant to successful specific initiation of plus-strand DNA synthesis, we have used nucleic acid sequences from the genome of Rous sarcoma virus along with three different sources of RNase H: avian myeloblastosis virus DNA polymerase, murine leukemia virus DNA polymerase, and the RNase H of Escherichia coli. Our findings include evidence that specificity is controlled not only by the nucleic acid sequences but also by the RNase H. For example, while the avian reverse transcriptase efficiently and specifically initiates on the sequences of the avian retrovirus, the murine reverse transcriptase initiates specifically but at a location 4 bases upstream of the correct site.
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PMID:Specificities involved in the initiation of retroviral plus-strand DNA. 168 26

Intramolecular RNA cross-links were induced within the large ribosomal subunit of E. coli by mild ultraviolet irradiation. Regions of the 23S RNA previously implicated in interactions with ribosomal-bound tRNA were then specifically excised by addressed cleavage using ribonuclease H, in conjunction with synthetic complementary decadeoxyribonucleotides. Individual cross-linked fragments within these regions released by such 'directed digests' were isolated by two-dimensional gel electrophoresis and the sites involved in the cross-links determined using classical oligonucleotide analysis techniques. Using this approach, seven 'new' cross-links could be precisely localised, between positions 1782 and 2608-2609, 1940 and 2554, 1941-1942 and 1964-1965, 1955 and 2552-2553, 2145-2146 and 2202, 2518-2519 and 2544-2545, and between positions 2790-2791 and 2892-2895 in the 23S RNA sequence. These data, in conjunction with data from RNA-protein cross-linking studies carried out in our laboratory, were used to define a model for the tertiary organisation of the tRNA binding domain of 23S RNA 'in situ', in which the specific nucleotides associated with tRNA binding in the 'A' and 'P' sites are clustered at the base of the 'central protuberance' of the 50S subunit.
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PMID:Selective isolation and detailed analysis of intra-RNA cross-links induced in the large ribosomal subunit of E. coli: a model for the tertiary structure of the tRNA binding domain in 23S RNA. 169 60

The sequence of the LTR-LTR circle junction of human immunodeficiency virus type 1 (HIV-1) was determined. The circle junction sequences were amplified by the polymerase chain reaction and cloned into M13 sequencing vectors. The circle junction contains 4 base pairs that are not present in the integrated provirus. We show that reverse transcription in HIV-1 initiates with the addition of a dC to the tRNA primer, suggesting that the tRNA used to initiate reverse transcription ends with the consensus CCA triplet. This indicates that the source of one of the four bases in the circle junction is probably the terminal A of the tRNA primer used to initiate reverse transcription. We propose that, in HIV-1, removal of the tRNA primer by RNase H cleavage shows an unusual specificity such that cleavage occurs between the terminal rA and the adjacent rC of the tRNA primer. These data also imply that the HIV-1 integration protein removes two bases from each end of the linear viral DNA during integration as has been described for other well-studied retroviruses.
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PMID:Sequence of the circle junction of human immunodeficiency virus type 1: implications for reverse transcription and integration. 169 9

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

HIV reverse transcriptase (RT) is the target of the most widely used treatments for AIDS. Biochemical and mutagenesis studies performed on HIV-1 RT are reviewed in light of the enzyme's structure and functions. Features described include domain arrangement, dimerization, proteolytic processing, and specific recognition of the priming tRNA. Possible regions of functional importance as determined by comparative amino acid sequence analysis and by site-directed mutagenesis are identified. Among the conclusions of the analysis is the unexpected realization that the substrate for proteolytic maturation of the HIV-1 RT p66/p66 homodimer to the p66/p51 heterodimer is most likely an unfolded RNase H domain. In addition, the current progress in crystallization and structure determination of HIV-1 RT is described. Finally, a functional-model of the active reverse transcription complex is presented.
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PMID:HIV reverse transcriptase structure-function relationships. 171 68

The reverse transcriptase enzymes of retroviruses are multifunctional proteins containing both DNA polymerase activity and a nuclease activity, termed RNase H, specific for RNA in RNA-DNA hybrid form. To determine the role of RNase H activity in retroviral replication, we constructed a series of mutant genomes of Moloney murine leukemia virus that encoded reverse transcriptase enzymes that were specifically altered to retain polymerase function but lack RNase H activity. The mutant genomes were all replication defective. Analysis of in vitro reverse transcription reactions carried out by mutant virions showed that minus-strand strong-stop DNA was formed but did not efficiently translocate to the 3' end of the genome; rather, the DNA was stably retained in RNA-DNA hybrid form. Plus-strand strong-stop DNA was not detected. These results suggest that RNase H normally promotes strong-stop translocation, perhaps by exposing single-stranded DNA sequences for base pairing. Four new DNA species were also detected among the reaction products. Analysis of these DNAs suggested that they were minus-strand DNAs formed from VL30 RNAs encoded by the mouse genome. We suggest that reverse transcriptase can initiate DNA synthesis at any one of four alternate tRNA primer-binding sites near the 5' ends of VL30 RNAs.
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PMID:Abortive reverse transcription by mutants of Moloney murine leukemia virus deficient in the reverse transcriptase-associated RNase H function. 171 62

Two model substrates were prepared to examine the mechanism of tRNA-primer excision catalyzed by reverse transcriptase associated ribonuclease H (RT-RNase H). The first model substrate contained sequences from the HIV genome and was designed to be structurally similar to the DNA-extended tRNA created by initiation of minus-strand DNA synthesis during retroviral replication. The DNA-extended RNA was a template and was annealed to a DNA oligonucleotide that primed reverse transcription of the RNA in the template. The second model substrate was structurally similar the first substrate but contained sequences unrelated to the HIV viral genome. The RT-RNase H catalyzed excision of the RNA from the template of the two model substrates was examined. Human immunodeficiency virus (HIV) and Moloney murine leukemia virus RT-RNase H hydrolyzed the substrates to leave a single ribonucleotide 5'-phosphate at the 5'-terminus of the model DNA genome. In contrast, avian myeloblastosis virus RT-RNase H hydrolyzed the phosphodiester bond at the DNA-RNA junction. These hydrolytic specificities were not highly dependent on substrate sequence. The importance of these specificities to retroviral integration is discussed. Additional data indicated that the HIV polymerase and RNase H active sites are separated by a distance equivalent to the length of a 15-nucleotide RNA-DNA heteroduplex.
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PMID:Human immunodeficiency virus reverse transcriptase ribonuclease H: specificity of tRNA(Lys3)-primer excision. 171 59

A 1.67-kb segment of the equine infectious anemia virus pol gene, encoding a 66-kDa reverse transcriptase (RT), was cloned and expressed in Escherichia coli. Recombinant RT, purified by a combination of metal chelate affinity chromatography and ion-exchange chromatography, displays both RNA-dependent DNA polymerase and RNase H activity. The affinity of purified RT for its replication primer, tRNA(3Lys) was equivalent to that observed for human immunodeficiency virus RT. Our data suggest that an additional domain between RT-RNase H and integrase on the equine infectious anemia virus pol open reading frame is not an integral component of the RT polypeptide.
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PMID:Purification and characterization of recombinant equine infectious anemia virus reverse transcriptase. 171 38

The nucleotide sequence of an infectious clone of rice tungro bacilliform virus (RTBV) DNA has been determined. The circular genome has 8002 bp and one strand contains four open reading frames (ORFs). One ORF is potentially capable of encoding a protein of 24 kD (P24) and has no initiation (ATG) codon. The other three ORFs potentially encode proteins of 12 kD, 194 kD and 46 kD (P12, P194, P46) respectively. The functions of P24, P12 and P46 are unknown. Comparative analyses with retroviruses and Commelina yellow mottle virus suggest that the 194 kD putative product is a polyprotein that is proteolytically cleaved to yield the virion coat protein, a protease and replicase (reverse transcriptase and RNase H) characteristic of retroelements. The DNA sequence reveals other features which strongly support our belief that RTBV is a pararetrovirus. These include sequences at the mapped positions of two discontinuities in the virion DNA which are complementary to tRNA metinit and purine-rich, and may be the priming sites for minus- and plus-strand DNA synthesis respectively. As the positions of likely transcriptional signals suggest, a full-length viral transcript is observed by northern analysis. The predicted folding of the 645 bp 5'-region of this RNA resembles that of caulimoviruses. Comparisons with other reverse transcribing elements are discussed.
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PMID:An analysis of the sequence of an infectious clone of rice tungro bacilliform virus, a plant pararetrovirus. 204 39

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