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)

The recombinant 94 kDa Thermus thermophilus DNA polymerase (rTth pol) was found to release [33P]UMP when incubated with a RNA.DNA hybrid containing a [33P]UMP-labeled RNA strand. The RNase H activity was optimally active in the presence of low monovalent salt concentrations and when Mn2+ was used as the divalent cation activator. RNase H activity also was observed when Mg2+ replaced the Mn2+, but to a much lesser extent. A 60 nucleotide long, 5'- or 3'-radiolabeled RNA or DNA oligomer hybridized to a complementary DNA oligomer was used to determine the mode of digestion. The radiolabeled RNA.DNA hybrid or DNA.DNA duplex was incubated with rTth pol using various metal ion conditions and different incubation times. The DNA.DNA duplex showed very little enzymatic cleavage by rTth pol regardless of the Mn2+ or Mg2+ concentration. However, nearly complete digestion of the RNA.DNA hybrid was observed over a wide Mn2+ concentration range, thus demonstrating a preferential degradation of the RNA.DNA hybrid vs the DNA.DNA duplex. Time course reactions of the enzymatic digestion of the 3'-labeled RNA.DNA hybrid or DNA.DNA duplex by rTth pol indicated that digestion of the substrates occurred exonucleolytically in the 5'-->3' direction.
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PMID:Properties of the 5'-->3' exonuclease/ribonuclease H activity of Thermus thermophilus DNA polymerase. 771 Oct 21

Mag is a retrotransposon found as an insert in the Sericin 2 gene. It is present in a few copies--4 to 15--dispersed in the genome of different strains of Bombyx mori as well as in Bombyx mandarina. Flanked by a 5 bp target sequence with no sequence specificity, it is bordered by direct repeats of 77 nucleotides. Despite their unusual short size, these terminal repeats and their immediately adjacent sequences present all the signals necessary for transcription into genomic RNA and for reverse transcription. Mag contains two overlapping open reading frames which are organized as the gag and pol genes of retroviruses and encode putative nucleic acid binding peptide, protease, reverse transcriptase, RNase H and endonuclease in this order. Sequence comparison of these proteins places mag within the gypsy group of LTR retrotransposons next to the echinoderm element SURL.
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PMID:Structural features of mag, a gypsy-like retrotransposon of Bombyx mori, with unusual short terminal repeats. 781 9

The phytopathogenic fungus Botrytis cinerea can infect an extremely wide range of host plants (tomato, grapevine, strawberry, and flax) without apparent specialization. While studying genetic diversity in this fungus, we found an element which is present in multiple copies and dispersed throughout the genome of some of its isolates. DNA sequence analysis revealed that the element contained direct, long-terminal repeats (LTRs) of 596 bp whose features were characteristic of retroviral and retrotransposon LTRs. Within the element, we identified an open reading frame with sequences homologous to the reverse transcriptase and RNase H domains of retroelement pol genes. We concluded that the element we had identified was a retroelement and named it Boty. By comparing its open reading frame with sequences from other retroelements, we found that Boty is related to the gypsy family of retrotransposons. Boty was present in numerous strains isolated from grapes and tomatoes but not in isolates from lentils. We propose that Boty-containing and Boty-deficient groups represent two lineages in the population of B. cinerea.
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PMID:Boty, a long-terminal-repeat retroelement in the phytopathogenic fungus Botrytis cinerea. 788 92

Translation of the yeast retrotransposon Ty1 TYA1(gag)-TYB1(pol) gene occurs by a +1 ribosomal frameshifting event at the sequence CUU AGG C. Because overexpression of a low abundance tRNA-Arg(CCU) encoded by the HSX1 gene resulted in a reduction in Ty1 frameshifting, it was suggested that a translational pause at the AGG-Arg codon is required for optimum frameshifting. The present work shows that the absence of tRNA-Arg(CCU) affects Ty1 transposition, translational frameshifting, and accumulation of mature TYB1 proteins. Transposition of genetically tagged Ty1 elements decreases at least 50-fold and translational frameshifting increases 3-17-fold in cells lacking tRNA-Arg(CCU). Accumulation of Ty1-integrase and Ty1-reverse transcriptase/ribonuclease H is defective in an hsx1 mutant. The defect in Ty1 transposition is complemented by the wild-type HSX1 gene or a mutant tRNA-Arg(UCU) gene containing a C for T substitution in the first position of the anticodon. Overexpression of TYA1 stimulates Ty1 transposition 50-fold above wild-type levels when the level of transposition is compared in isogenic hsx1 and HSX1 strains. Thus, the HSX1 gene determines the ratio of the TYA1 to TYA1-TYB1 precursors required for protein processing or stability, and keeps expression of TYB1 a rate-limiting step in the retrotransposition cycle.
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PMID:A rare tRNA-Arg(CCU) that regulates Ty1 element ribosomal frameshifting is essential for Ty1 retrotransposition in Saccharomyces cerevisiae. 824 96

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.
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PMID:Skippy, a retrotransposon from the fungal plant pathogen Fusarium oxysporum. 854 29

It has been reported recently that the human foamy virus (HFV) Pol polyprotein of 120 kDa is synthesized in the absence of the active HFV aspartic protease. To gain more information on how the 120-kDa Pro-Pol protein is synthesized, mutant HFV genomes were constructed and the resulting proviruses were analyzed with respect to HFV pol expression and infectivity. HFV proviruses that contain termination codons in the nucleocapsid domain of gag and thus lack a gag-pol overlap region assumed to be required for translational frameshifting, nevertheless expressed the 120-kDa Pro-Pol precursor, the 80-kDa reverse transcriptase/RNase H, and a 40-kDa integrase in amounts similar to those observed for wild-type genomes. Since a Gag-independent expression of authentic Pol proteins was detectable in cells transfected with eukaryotic HFV pol expression plasmids, the data indicate that the HFV Pol precursor of 120 kDa is expressed independently of Gag by a mechanism that does not rely on ribosomal frameshifting, since the postulated HFV Gag-Pol protein of 190 kDa was not detectable under the conditions used. Furthermore, replacement of the Met residue by Thr at position 9 in pol within the gag-pol overlap region resulted in strongly reduced HFV Pol polyprotein expression and infectivity of the resulting proviruses. This Met residue of pol conserved in foamy virus sequences is the likely candidate for translational initiation of the 120-kDa Pro-Pol polyprotein. trans complementation of the HFV mutant with the Met-to-Thr substitution in the pol gene by a eukaryotic plasmid that expressed the HFV Pro-Pol protein resulted in partial recovery of infectivity. When HFV pol was fused in frame to gag, an engineered 190-kDa Gag-Pol fusion protein was formed and the enzymatic activity of the HFV protease was partially retained. The results imply that HFV is the first retrovirus that expresses a Pol polyprotein without formation of a Gag-Pol fusion protein.
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PMID:The human foamy virus pol gene is expressed as a Pro-Pol polyprotein and not as a Gag-Pol fusion protein. 855 61

A repeated DNA sequence used for epidemiological studies of the human opportunistic pathogen Aspergillus fumigatus has been characterized. It is a retroelement of 6914 bp in length, bounded by long terminal repeats of 282 bp, with sequence and features characteristic of retroviruses and retrotransposons. A 5 bp duplication site was found at its borders. This element, designated Afut1, encodes amino acid sequences homologous to the reverse transcriptase, RNase H and endonuclease encoded by the pol genes of retroelements. Comparison of the peptidic sequences with other putative polypeptides of fungal LTR retrotransposons showed that Afut1 is a member of the gypsy group. This is the first report of a transposable element in A.fumigatus. Afut1 is a defective element: the putative coding domains contain multiple stop codons due exclusively to transitions from C:G to T:A.
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PMID:Afut1, a retrotransposon-like element from Aspergillus fumigatus. 862 74

We have isolated and characterized a new human endogenous provirus, which is closely related to the human retrovirus S71, but unlike S71 has a full-length pol gene. Two degenerate oligonucleotide primers based on highly conserved motifs within the active sites of two retroviral proteins (the protease and reverse transcriptase) were designed and used for PCR. An amplified product of 847 bp in length, which showed significant homology to protease and reverse transcriptase of several retroviruses, was used for high stringency hybridization with a human genomic library. The MuLV-related endogenous retrovirus sequence, designated HC2, was isolated and completely sequenced. HC2 is a provirus with complete gag and pol genes and a 3' LTR; the 5' LTR and env gene are missing. The gag and pol genes appear complete, since they contain sequences homologous to the matrix protein, capsid protein, and nucleocapsid protein of gag and to the protease, reverse transcriptase, tether, RNase H, and integrase of pol. Phylogenetic analysis suggests that although HC2 and S71 are MuLV-related retroviruses, their characters are quite distinct, being placed outside of a clade containing most of the previously characterized MuLV-related retroviruses such as GaLV, FeLV, BaEV, and SSV/SSAV.
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PMID:Human endogenous retrovirus HC2 is a new member of the S71 retroviral subgroup with a full-length pol gene. 894 25

The Ty1 retrotransposon of the yeast Saccharomyces cerevisiae is a long terminal repeat mobile genetic element that transposes through an RNA intermediate. Initiation of minus-strand and plus-strand DNA synthesis are two critical steps during reverse transcription of the retrotransposon genome. Initiation of minus-strand DNA synthesis of the Ty1 element is primed by the cytoplasmic initiator methionine tRNA base paired to the primer binding site near the 5' end of the genomic RNA. A structural probing study of the primer tRNA-Ty1 RNA binary complex reveals that besides interactions between the primer binding site and the last 10 nucleotides at the 3' end of the primer tRNA, three short regions of Ty1 RNA named box 0, box 1 and box 2.1 interact with the T and D stems and loops of the primer tRNA. Some in vivo results underline the functional importance of the nucleotide sequence of the boxes and suggest that extended interactions between genomic Ty1 RNA and the primer tRNA play a role in the reverse transcription pathway. Plus-strand DNA synthesis is initiated from an RNase H resistant oligoribonucleotide spanning a purine-rich sequence, the polypurine tract (PPT). Two sites of initiation located at the 5' boundary of the 3' long terminal repeat (PPT1) and near the middle of the TyB (pol) gene in the integrase coding sequence (PPT2) have been identified in the genome of Ty1. The two PPTs have an identical sequence, TGGGTGGTA. Mutations replacing purines by pyrimidines in this sequence significantly diminish or abolish initiation of plus-strand DNA synthesis. Ty1 elements bearing a mutated PPT2 sequence are not defective for transposition whereas mutations in PPT1 abolish transposition.
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PMID:Role of RNA primers in initiation of minus-strand and plus-strand DNA synthesis of the yeast retrotransposon Ty1. 895 10

The ability to selectively amplify RNA in the presence of genomic DNA of analogous sequence is cumbersome and requires implementation of critical controls for genes lacking introns. The convenient approaches of either designing oligonucleotide primers at the splice junction or differentiating the target sequence based on the size difference obtained by the presence of the intron are not possible. Our strategy for the selective amplification of RNA targets is based on the enzymology of a single thermostable DNA polymerase and the ability to modulate the strand separation temperature requirements for PCR amplification. Following reverse transcription of the RNA by recombinant Thermus thermophilus DNA polymerase (rTth pol), the resulting RNAxDNA hybrid is digested by the RNase H activity of rTth pol, allowing the PCR primer to hybridize and initiate second-strand cDNA synthesis. Substitution of one or more conventional nucleotides with nucleotide analogs that decrease base stacking interactions and/or hydrogen bonding (e.g. hydroxymethyldUTP or dITP) during the first- and second-strand cDNA synthesis step reduces the strand separation temperature of the resultant DNAxDNA duplex. Alteration of the thermal cycling parameters of the subsequent PCR amplification, such that the strand separation temperature is below that required for denaturation of genomic duplex DNA composed of standard nucleotides, prevents the genomic DNA from being denatured and therefore amplified.
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PMID:Selective amplification of RNA utilizing the nucleotide analog dITP and Thermus thermophilus DNA polymerase. 901 75

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