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)

Linker-scanning libraries were generated within the 3' terminus of the Moloney murine leukemia virus (M-MuLV) pol gene encoding the connection-RNase H domains of reverse transcriptase (RT) as well as the structurally related M-MuLV and human immunodeficiency virus type 1 (HIV-1) integrase (IN) proteins. Mutations within the M-MuLV proviral vectors were Tn7 based and resulted in 15-bp insertions. Mutations within an HIV-1 IN bacterial expression vector were based on Tn5 and resulted in 57-bp insertions. The effects of the insertions were examined in vivo (M-MuLV) and in vitro (HIV-1). A total of 178 individual M-MuLV constructs were analyzed; 40 in-frame insertions within RT connection-RNase H, 108 in-frame insertions within IN, 13 insertions encoding stop codons within RNase H, and 17 insertions encoding stop codons within IN. For HIV-1 IN, 56 mutants were analyzed. In both M-MuLV and HIV-1 IN, regions are identified which functionally tolerate multiple-linker insertions. For MuLV, these correspond to the RT-IN proteolytic junction, the junction between the IN core and C terminus, and the C terminus of IN. For HIV-1 IN, in addition to the junction between the IN core and C terminus and the C terminus of IN, insertions between the N terminus and core domains maintained integration and disintegration activity. Of the 40 in-frame insertions within the M-MuLV RT connection-RNase H domains, only the three C-terminal insertions mapping to the RT-IN proteolytic junction were viable. These results correlate with deletion studies mapping the domain and subdomain boundaries of RT and IN. Importantly, these genetic footprints provide a means to identify nonessential regions within RT and IN for targeted gene therapy applications.
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PMID:Revealing domain structure through linker-scanning analysis of the murine leukemia virus (MuLV) RNase H and MuLV and human immunodeficiency virus type 1 integrase proteins. 1697 54

Virally regulated HIV-1 particles were expressed from DNA plasmids encoding Gag, protease, reverse transcriptase, Vpu, Tat, Rev, and Env. The sequences for integrase, Vpr, Vif, Nef, and the long terminal repeats (LTRs) were deleted. Mutations were engineered into the VLP genome to produce particles deficient in activities associated with viral reverse transcriptase, RNase H, and RNA packaging. Each plasmid efficiently secreted particles from primate cells in vitro and particles were purified from the supernatants and used as immunogens. Mice (BALB/c) were vaccinated intranasally (day 1 and weeks 3 and 6) with purified VLPs and the elicited immunity was compared to particles without Env (Gag(p55)), to soluble monomeric Env(gp120), or to soluble trimerized Env(gp140). Only mice vaccinated with VLPs had robust anti-Env cellular immunity. In contrast, all mice had high titer anti-Env serum antibody (IgG). However, VLP-vaccinated mice had antisera that detected a broader number of linear Env peptides, had anti-Env mucosal IgA and IgG, as well as higher titers of serum neutralizing antibodies. VLPs elicited high titer antibodies that recognized linear regions in V4-C5 and the ectodomain of gp41, but did not recognize V3. These lentiviral VLPs are effective mucosal immunogens that elicit broader immunity against Env determinants in both the systemic and mucosal immune compartments than soluble forms of Env.
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PMID:Membrane embedded HIV-1 envelope on the surface of a virus-like particle elicits broader immune responses than soluble envelopes. 1701 Oct 11

Paired metal ions have been proposed to be central to the catalytic mechanisms of RNase H nucleases, bacterial transposases, Holliday junction resolvases, retroviral integrases and many other enzymes. Here we present a sensitive assay for DNA transesterification in which catalysis by human immunodeficiency virus-type 1 (HIV-1) integrase (IN) connects two DNA strands (disintegration reaction), allowing detection using quantitative PCR (qPCR). We present evidence suggesting that the three acidic residues of the IN active site function through metal binding using metal rescue. In this method, the catalytic acidic residues were each substituted with cysteines. Mn2+ binds tightly to the sulfur atoms of the cysteine residues, but Mg2+ does not. We found that Mn2+, but not Mg2+, could rescue catalysis of each cysteine-substituted enzyme, providing evidence for functionally important metal binding by all three residues. We also used the PCR-boosted assay to show that HIV-1 IN could carry out transesterification reactions involving DNA 5' hydroxyl groups as well as 3' hydroxyls as nucleophiles. Lastly, we show that Mn2+ by itself (i.e. without enzyme) can catalyze formation of a low level of PCR-amplifiable product under extreme conditions, allowing us to estimate the rate enhancement due to the IN-protein scaffold as at least 60 million-fold.
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PMID:Role of metal ions in catalysis by HIV integrase analyzed using a quantitative PCR disintegration assay. 1708 78

Two Ty1/copia-like retrotransposons, RTvr1 and RTvr2, were isolated from mung bean (Vigna radiata (L.) Wilczek) genomic DNA and are the first complete elements of this kind to be reported in this legume. Nucleotide sequence analyses revealed that both elements are AT-rich (60% and 61%, respectively) and are flanked by a target-site duplication of 5 bp. The structures of RTvr1 and RTvr2 are those of typical long terminal repeat retrotransposons. Both transposons were able to produce putative proteins with the domain order of Gag-protease-integrase-reverse transcriptase-RNase H, indicating that RTvr1 and RTvr2 belong to the Ty1/copia-like retrotransposons. Except for a 2,500-bp insertion region in RTvr2, the overall similarity between RTvr1 and RTvr2 is 92%. Dot blots showed that these two retroelements were present at a copy number of 120 per mung bean haploid genome. Multiple sequence alignments showed that the conserved motifs of the aspartic proteases, integrase, reverse transcriptase, and the RNase H in the Ty1/copia-like group all exist in RTvr1 and RTvr2.
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PMID:Isolation and characterization of Ty1/copia-like retrotransposons in mung bean (Vigna radiata). 1712 1

The plasmid, pAF28, a genomic clone from Aspergillus flavus NRRL 6541, has been used as a hybridization probe to fingerprint A. flavus strains isolated in corn and peanut fields. The insert of pAF28 contains a 4.5 kb region which encodes a truncated retrotransposon (AfRTL-1). In search for a full-length and intact copy of retrotransposon, we exploited a novel PCR cloning strategy by amplifying a 3.4 kb region from the genomic DNA of A. flavus NRRL 6541. The fragment was cloned into pCR 4-TOPO. Sequence analysis confirmed that this region encoded putative domains of partial reverse transcriptase, RNase H, and integrase of the predicted retrotransposon. The two flanking long terminal repeats (LTRs) and the sequence between them comprise a putative full-length LTR retrotransposon of 7799 bp in length. This intact retrotransposon sequence is named AFLAV (A. flavus Retrotransposon). The order of the predicted catalytic domains in the polyprotein (Pol) placed AFLAV in the Tf1/sushi subgroup of the Ty3/gypsy retrotransposon family. Primers derived from AFLAV sequence were used to screen this retrotransposon in other strains of A. flavus. More than fifty strains of A. flavus isolated from different geological origins were surveyed and the results show that many strains have extensive deletions in the regions encoding the capsid (Gag) and Pol.
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PMID:Characterization of AFLAV, a Tf1/Sushi retrotransposon from Aspergillus flavus. 1728 66

Small interfering RNAs (siRNAs) associated with gene silencing are cellular defense mechanisms against invading viruses. The viruses fight back by suppressors or escape mechanisms. The retroviruses developed a unique escape mechanism by disguising as DNA proviruses. An evolutionary relationship between the siRNA machinery and the replication machinery of retroviruses is likely. The RNA cleavage enzymes PIWI and RNase H proteins are structurally related. This relationship can be extended from structure to function, since the retroviral reverse transcriptase (RT)/RNase H can also cause silencing of viral RNA by siRNA. Thus, both enzymes can cleave RNA-DNA hybrids and double-stranded RNA (dsRNA) with various efficiencies shown previously and here, demonstrating that their specificities are not absolute. Other similarities may exist, for example between PAZ and the RT and between RNA-binding proteins and the viral nucleocapsid protein. Dicer has some similarities with the viral integrase, since both specifically generate dinucleotide 3'-overhanging ends. We described previously the destruction of the human immunodeficiency virus (HIV) RNA by a DNA oligonucleotide ODN (oligodeoxynucleotide). Variants of the ODN indicated high length and sequence specificities, which is reminiscent of siRNA and designated here as "siDNA." Cleavage of the viral RNA in the presence of the ODN is caused by the retroviral RT/RNase H and cellular RNase H activities. Several siRNA-mediated antiviral defense mechanisms resemble the interferon system.
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PMID:Relationship between retroviral replication and RNA interference machineries. 1738 18

The 14th Conference on Retroviruses and Opportunistic Infections provided a forum for presentation of state-of-the-art research on antiretroviral therapy. This year's conference marked the first public presentation of phase III trials of the lead compounds in 2 new drug classes: maraviroc (a CCR5 inhibitor) and raltegravir (an HIV-1 integrase inhibitor). These agents are likely to be approved by the US Food and Drug Administration this year and should provide major new options for treatment-experienced patients with multidrug resistant virus. Other dominant themes of the conference were the impressive number of presentations describing outcomes of antiretroviral therapy programs in resource-limited settings and new information on mechanisms of drug resistance. Among the latter, the importance of drug resistance mutations occurring in the RNase H and connection domains of the HIV-1 reverse transcriptase was of special note. In addition, substantial new information was presented on other new antiretroviral agents, studies in treatment-naive patients, antiretroviral therapy strategies, prevention of mother-to-child transmission, predictors of clinical response to therapy, and antiretroviral pharmacokinetics. Research in antiretroviral therapy remains dynamic and advances in the field continue to improve our ability to maintain long-term control of HIV-1 replication in infected persons.
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PMID:Advances in antiretroviral therapy. 1748 87

A series of 29 madurahydroxylactone derivatives was evaluated for dual inhibition of human immunodeficiency virus type 1 (HIV-1) integrase and RNase H. While most of the compounds exhibited similar potencies for both enzymes, two of the derivatives showed 10- to 100-fold-higher selectivity for each enzyme, suggesting that distinct pharmacophore models could be generated. This study exemplifies the common and divergent structural requirements for the inhibition of two structurally related HIV-1 enzymes and demonstrates the importance of systematically screening for both integrase and RNase H when developing novel inhibitors.
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PMID:Madurahydroxylactone derivatives as dual inhibitors of human immunodeficiency virus type 1 integrase and RNase H. 1796 11

A genomic PCR fragment of 4581 bp, referred to as PyRE10G, was isolated from the red alga Porphyra yezoensis. PyRE10G contained a putative open reading frame encoding gag, protease, integrase, reverse transcriptase (RT), and RNase H, but one stop codon was present in the integrase region. Southern blot analysis revealed that PyRE10G exists as a single copy in the genome. From the order of gene arrangement of polyproteins, PyRE10G appears to be a copia-like retrotransposon. Amino acid sequences of PyRE10G RT and RNase H were closely related to those of copia-like retrotransposons. In contrast, the phylogenetic tree suggested that PyRE10G integrase stands within the gypsy elements and outside the copia group. PyRE10G is the first example of a chimeric composition of copia- and gypsy-like polyprotein genes in a single element, supporting the hypothesis that long terminal repeat-containing retrotransposons have evolved by fusion of ancestral RT/RNase H and other polyprotein genes.
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PMID:A copia-like retrotransposon gene encoding gypsy-like integrase in a red alga, Porphyra yezoensis. 1807 21

A copia-like retrotransposon referred to as PyRE1G1 was isolated from the genome of the red alga Porphyra yezoensis. PyRE1G1 is 4807 bp in length, with 204 bp long terminal repeats (LTRs) at both ends. PyRE1G1 has an open reading frame of 1401 residues encoding gag, protease, integrase, reverse transcriptase (RT), and RNase H. From the order of gene arrangement of proteins, PyRE1G1 appears to be a copia-like retrotransposon. Genomic Southern blot analysis suggests that PyRE1G1 consists of a small gene family. From the phylogenetic tree of RT sequences, PyRE1G1 is grouped in the clade of usual copia elements and distinct from the previously isolated red algal copia-like gene PyRE10G in that the latter is closely related to a new clade of aquatic animal-specific copia-like retrotransposons.
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PMID:Two different clades of copia-like retrotransposons in the red alga, Porphyra yezoensis. 1870 30

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