EC:3.1.26.4 - FACTA Search

Gene/Protein Disease Symptom 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)

We have expressed the recombinant reverse transcriptase (RT) of bovine leukemia virus (BLV) in bacteria. The gene encoding the RT was designed to start at its 5' end next to the last codon of the mature viral protease, namely the amino terminus of the RT matches the last 26 codons of the pro gene and is coded for by the pro reading frame. The RT sequence extends into the pol gene, utilizing the pol reading frame after overcoming the stop codon by adding an extra nucleotide (thus imitating the naturally occurring frameshift event). Hence we have generated a transframe polypeptide that is a 584-residues-long protein (see Rice, Stephens, Burny, and Gilden (1985) Virology 142, 357-377). This protein was partially purified after adding a six-histidine tag and studied biochemically testing a variety of parameters. The enzyme exhibits all activities typical of RTs, i.e., both RNA- and DNA-dependent DNA polymerase as well as a ribonuclease H (RNase H) activity. Unlike most RTs, the BLV RT is enzymatically active as a monomer even after binding a DNA substrate. The enzyme shows a preference for Mg2+ over Mn2+ in both its DNA polymerase and RNase H activities. BLV RT is relatively resistant to nucleoside triphosphate analogues, which are known to be potent inhibitors of other RTs such as that of HIV.
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PMID:Catalytic features of the recombinant reverse transcriptase of bovine leukemia virus expressed in bacteria. 1036 2

The Osvaldo retrotransposon has shown a high transposition rate in some strains of Drosophila buzzatii and in hybrids between D. buzzatii and its sibling D. koepferae. In order to understand the molecular basis of this phenomenon, we developed a procedure to clone a recently transposed copy with the aim of characterizing an active, full- length Osvaldo element. The complete nucleotide sequence of Osvaldo, obtained from a recent insertion site, was determined. Osvaldo is 9,045 bp long and is composed of a central coding region flanked by identical long terminal repeats (LTRs) of 1,196 bp each. Sequences homologous to the polypurine tract and tRNA-primer-binding site of retroviruses are located adjacent to the 3' and 5' LTRs, respectively. The internal region of Osvaldo contains three long open reading frames (ORFs 1, 2, and 3), comparable in size and location to gag, pol, and env retroviral genes. The conceptual translation of Osvaldo ORF1 exhibits sequence homology to HIV1 and SIV capsid (p24) and nucleocapsid (p7) mature proteins. ORF2 encodes the putative protease (PR), reverse transcriptase/ribonuclease H (RT/RH), integrase (IN), and a significant portion of the surface envelope (ENV) protein that is interrupted by a putative intron. A third ORF encodes the remaining part of the ENV protein. The predicted 62-kDa ENV protein shares several general features with membrane glycoproteins, including a potential signal peptide, a transmembrane domain near the C-terminus that could function as a membrane anchor, four consensus N-linked glycosylation motifs, and, finally, a potential protease cleavage site. The phylogenetic relationships of Osvaldo are explored, and they suggest that Osvaldo may constitute a new family of retroviruses in insects, distantly related to the previously described group of gypsy retroviruses.
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PMID:The retrotransposon Osvaldo from Drosophila buzzatii displays all structural features of a functional retrovirus. 1040 8

Reverse transcriptase (RT) isolated from Rous sarcoma virus (RSV) consists of heterodimeric RTalphabeta, RTalpha, and RTbeta. The alpha subunit (63 kDa) contains an N-terminal polymerase and a C-terminal RNase H domain. The N terminus of beta (95 kDa) corresponds to alpha with the integrase domain attached to the C terminus (32 kDa). We have constructed baculoviruses expressing the genes for alpha or beta or the entire pol (99 kDa). Infection of insect cells with recombinant virus yielded highly active and soluble RSV RT enzymes that could be purified to >90% homogeneity. HPLC gel filtration showed that alpha is a dimeric enzyme that can be partially monomerized upon the addition of 45% Me(2)SO. DNA synthesis on DNA-DNA and DNA-RNA primer-templates in the presence of competitor substrates revealed that alphabeta and beta as well as alpha are processive polymerases. However, the affinity of beta and alphabeta for primer-template substrates appears to be higher than that of alpha. All RSV enzymes investigated have the potential to displace RNA-RNA duplexes more efficiently than human immunodeficiency virus type 1 RT. Unlike human immunodeficiency virus type 1 RT, RSV RTs can catalyze an initial RNase H endonucleolytic cleavage of the RNA template but not a 3' --> 5' directed processing activity.
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PMID:Soluble Rous sarcoma virus reverse transcriptases alpha, alphabeta, and beta purified from insect cells are processive DNA polymerases that lack an RNase H 3' --> 5' directed processing activity. 1047 89

Reverse transcriptase (RT) preparations containing various molecular forms of the enzyme consisting of alpha- and/or beta-subunits have been isolated from E. coli cells transformed with plasmid pMF14 containing the Rous sarcoma virus (RSV) pol gene. The three possible dimeric forms of the enzyme demonstrated DNA polymerase activity, the relative activities of the alphaalpha, betabeta, and alphabeta forms being about 1:3:4. RNase H activity is associated with the betabeta and alphabeta dimers but not with the alphaalpha dimer. Comparison of the enzymic properties of the various dimers and dissociation--reassociation results suggest that the betabeta and alphabeta dimers of the RSV recombinant reverse transcriptase are similar to the corresponding virion RT forms.
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PMID:Isolation and characterization of Rous sarcoma virus recombinant reverse transcriptase dimers. 1049 11

Priming of plus-strand DNA is a critical step in reverse transcription of retroviruses and retrotransposons. All retroelements use an RNase H-resistant oligoribonucleotide spanning a purine-rich sequence (the polypurine tract or PPT) to prime plus-strand DNA synthesis. Plus-strand DNA synthesis of the yeast Saccharomyces cerevisiae Ty1-H3 retrotransposon is initiated at two sites, PPT1 and PPT2, located at the upstream boundary of the 3'-long terminal repeat and near the middle of the pol gene in the integrase coding region. The two plus-strand primers have the same purine-rich sequence GGGTGGTA. This sequence is not sufficient by itself to generate a plus-strand origin since two identical sequences located upstream of PPT2 in the integrase coding region are not used efficiently as primers for plus-strand DNA synthesis. Thus, other factors must be involved in the formation of a specific plus-strand DNA primer. We show here that mutations upstream of the PPT in a highly conserved T-rich region severely alters plus-strand DNA priming of Ty1. Our results demonstrate the importance of sequences or structural elements upstream of the PPT for initiation of plus-strand DNA synthesis.
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PMID:A sequence immediately upstream of the plus-strand primer is essential for plus-strand DNA synthesis of the Saccharomyces cerevisiae Ty1 retrotransposon. 1055 9

We have determined the nucleotide sequence of the 6868 bp full-size retrotransposon termed 'Tv1'. Tv1 was isolated from the DNA fraction of extracellular virus-like particles of Drosophila virilis culture cells. Tv1 has the typical structure for a gypsy-group retrotransposon. The Tv1 element was found to be flanked by 453 bp long terminal direct repeats identical to each other. The central part of the element contains three long open reading frames which resemble the gag, pol and env genes of retroviruses. ORF2 includes conservative motifs of protease, reverse transcriptase, RNase H and integrase in the order characteristic for the gypsy-group retrotransposons. Although most copies of Tv1 are located in pericentromeric heterochromatin, the amplification of this family demonstrated in the cell culture and site polymorphism observed in different Drosophila strains suggest functional activity of the Tv1 element.
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PMID:Gypsy group retrotransposon Tv1 from Drosophila virilis. 1057 Oct 49

Error-prone DNA synthesis by retroviral reverse transcriptases (RTs) is a major contributor to variation in retroviral populations. Structural features of retroviral RTs that are important for accuracy of DNA synthesis in vivo are not known. To identify structural elements of murine leukemia virus (MLV) RT important for fidelity in vivo, we developed a D17-based encapsidating cell line (ANGIE P) which is designed to express the amphotropic MLV envelope. ANGIE P also contains an MLV-based retroviral vector (GA-1) which encodes a wild-type bacterial beta-galactosidase gene (lacZ) and a neomycin phosphotransferase gene. Transfection of ANGIE P cells with wild-type or mutated MLV gag-pol expression constructs generated GA-1 virus that was able to undergo only one cycle of viral replication upon infection of D17 cells. The infected D17 cell clones were characterized by staining with 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside (X-Gal), and the frequencies of inactivating mutations in lacZ were quantified. Three mutations in the YVDD motif (V223M, V223S, and V223A) and two mutations in the RNase H domain (S526A and R657S) exhibited frequencies of lacZ inactivation 1.2- to 2.3-fold higher than that for the wild-type MLV RT (P < 0.005). Two mutations (V223I and Y598V) did not affect the frequency of lacZ inactivation. These results establish a sensitive in vivo assay for identification of structural determinants important for accuracy of DNA synthesis and indicate that several structural determinants may have an effect on the in vivo fidelity of MLV RT.
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PMID:Development of an in vivo assay to identify structural determinants in murine leukemia virus reverse transcriptase important for fidelity. 1059 Jan 19

The sequence of a 900-nucleotide segment (encoding part of the reverse transcriptase, including the entire RNase H domain) of the pol gene of the murine leukaemia virus (MLV) amphotropic strain 4070A is presented. Alignment of the inferred 4070A RNase H amino acid sequence (157 residues) with other MLV RNase H sequences revealed only minor differences compared with the divergence between other retroviral and prokaryotic or eukaryotic RNase H sequences. Only 10 residues were invariant across the entire sample set, but secondary structure predictions for the enzymes from E. coli, yeast, human liver and diverse retroviruses (HIV, Rous sarcoma virus, foamy viruses) supported, in every case, the five beta-strands (1 to 5) and four or five alpha-helices (A, B/C, D, E) that have been identified by crystallography in the RNase H domain of HIV-1 reverse transcriptase and in E. coli RNase H. In the case of MLV, analysis of the RNase H domain sequences inferred from 10 different strains (including the amphotropic 4070A) predicted all five alpha-helices (A-E), as well as beta-strands 4 and 5. However, the N-terminal segment (residues 1-40) was predicted, without exception and with high probability, to fold uniquely into one (or two adjacent) alpha-helix(es) encompassing residues 13-37, instead of the three beta-strands known to exist in the HIV-1 and E. coli enzymes. The unerring consistency between the known and predicted structures of the HIV-1 and E. coli enzymes, and the prediction of the same structural elements (including beta-strands 1-3 within the N-terminal segment) for all other (non-MLV) RNase H proteins examined in this study, suggests that the N-terminal segment of the MLV RNase H domain assumes a conformation distinct from that of other retroviral and cellular RNase H molecules. An additional (sixth) beta-strand was also predicted uniquely within the C-terminal region of foamy virus RNase H domains.
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PMID:Sequence and comparative structural analysis of the murine leukaemia virus amphotropic strain 4070A RNase H domain. 1060 72

A retrotransposon was isolated and characterized from strain 15A of the Japanese pear pathotype of Alternaria alternata, which causes black spot disease in certain cultivars of Japanese pear by producing a host-specific toxin known as AK-toxin. The element, which we have named REAL (Retrotransposon of Alternaria alternata), is 6046 bp in size and contains direct long terminal repeats (LTRs) of 218 bp. Target-site duplication of 5 bp was found. REAL contains two long overlapping ORFs. The first ORF shows homology to retroviral gag genes. The second ORF has homology to protease, reverse transcriptase, RNase H and integrase domains of the retroelement pol genes, in that order. Phylogenetic comparison of reverse transcriptase domains from retrotransposons placed REAL in the Ty3/gypsy group of LTR retrotransposons, most closely related to grasshopper from Magnaporthe grisea. Northern analysis detected REAL transcripts of about 2.0 and 6.0 kb. The 6.0-kb species corresponds to a full-length transcript of the element. The element was found by Southern analysis in 12 out of 13 strains of the Japanese pear pathotype, and the banding patterns, copy numbers and signal intensities in these strains were variable. REAL-related elements were also found in some, but not all, of the other strains tested, including nonpathogenic A. alternata and other pathotypes, which cause diseases on different plant species by producing distinct hostspecific toxins. These results suggest that the distribution of REAL in A. alternata is not pathotype specific.
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PMID:REAL, an LTR retrotransposon from the plant pathogenic fungus Alternaria alternata. 1085 84

The selective packaging of the primer tRNA(Lys3) into HIV-1 particles is dependent upon the viral incorporation of the Pr160gag-pol precursor protein. In order to map a tRNA(Lys3) binding site within this precursor, we have studied the effects of mutations in Pr160gag-pol upon the selective incorporation of tRNA(Lys3). Many of these mutations were placed in a protease-negative HIV-1 proviral DNA to prevent viral protease degradation of the mutant Gag-Pol protein. C-terminal deletions of protease-negative Gag-Pol that removed the entire integrase sequence and the RNase H and connection subdomains of reverse transcriptase did not inhibit the incorporation of either the truncated Gag-Pol or the tRNA(Lys3), indicating that these regions are not required for tRNA(Lys3) binding. On the other hand, larger C-terminal deletions, which also remove the thumb subdomain sequence, did prevent tRNA(Lys3) packaging, without inhibiting viral incorporation of the truncated Gag-Pol, indicating a possible interaction between thumb subdomain sequences and tRNA(Lys3). While point mutations K249E, K249Q, and R307E in the primer grip region of the thumb subdomain have been reported to inhibit the in vitro interaction of mature reverse transcriptase with the anticodon loop of tRNA(Lys3), we find that these mutations do not inhibit tRNA(Lys3) packaging into the virus, which supports other work indicating that the anticodon loop of tRNA(Lys3) is not involved in interactions with Pr160gag-pol during tRNA(Lys3) packaging.
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PMID:Sequences within Pr160gag-pol affecting the selective packaging of primer tRNA(Lys3) into HIV-1. 1086 Jul 20

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