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)

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 crystal structure of RNase H from Escherichia coli has been determined by the multiple isomorphous replacement method, and refined by the stereochemically restrained least-squares procedure to a crystallographic R-factor of 0.196 at 1.48 A resolution. In the final structure, the root-mean-square (r.m.s.) deviation for bond lengths is 0.017 A, and for angle distances 0.036 A. The structure is composed of a five-stranded beta-sheet and five alpha-helices, and reveals the details of hydrogen bonding, electrostatic and hydrophobic interactions between intra- and intermolecular residues. The refined structure allows an explanation of the particular interactions between the basic protrusion, consisting of helix alpha III and the following loop, and the remaining major domain. The beta-sheet, alpha II, alpha III and alpha IV form a central hydrophobic cleft that contains all six tryptophan residues, and presumably serves to fix the orientation of the basic protrusion. Two parallel adjacent helices, alpha I and alpha IV, are associated with a few triads of hydrophobic interactions, including many leucine residues, that are similar to the repeated leucine motif. The well-defined electron density map allows detailed discussion of amino acid residues likely to be involved in binding a DNA/RNA hybrid, and construction of a putative model of the enzyme complexed with a DNA/RNA hybrid oligomer. In this model, a protein region, from the Mg(2+)-binding site to the basic protrusion, covers roughly two turns of a DNA/RNA hybrid double helix. A segment (11-23) containing six glycine residues forms a long loop between the beta A and beta B strands. This loop, which protrudes into the solvent region, lies on the interface between the enzyme and a DNA/RNA hybrid in the model of the complex. The mean temperature factors of main-chain atoms show remarkably high values in helix alpha III that constitutes the basic protrusion, suggesting some correlation between its flexibility and the nucleic acid binding function. The Mg(2+)-binding site, surrounded by four invariant acidic residues, can now be described more precisely in conjunction with the catalytic activity. The arrangement of molecules within the crystal appears to be dominated by the cancelling out of a remarkably biased charge distribution on the molecular surface, which is derived in particular from the separation between the acidic Mg(2+)-binding site and the basic protrusion.
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PMID:Structural details of ribonuclease H from Escherichia coli as refined to an atomic resolution. 131 86

Thermus thermophilus ribonuclease H was overexpressed and purified from Escherichia coli. The determination of the complete amino acid sequence allowed modification of that predicted from the DNA sequence, and the enzyme was shown to be composed of 166 amino acid residues with a molecular weight of 18,279. The isoelectric point of the enzyme was 10.5, and the specific absorption coefficient A0.1%(280) was 1.69. The enzymatic and physicochemical properties as well as the thermal and conformational stabilities of the enzyme were compared with those of E. coli RNase HI, which shows 52% amino acid sequence identity. Comparison of the far and near UV circular dichroism spectra suggests that the two enzymes are similar in the main chain folding but different in the spatial environments of tyrosine and tryptophan residues. The enzymatic activities of T. thermophilus RNase H at 37 and 70 degrees C for the hydrolysis of either an M13 DNA/RNA hybrid or a nonanucleotide duplex were approximately 5-fold lower and 3-fold higher, respectively, as compared with E. coli RNase HI at 37 degrees C. The melting temperature, Tm, of T. thermophilus RNase H was 82.1 degrees C in the presence of 1.2 M guanidine hydrochloride, which was 33.9 degrees C higher than that observed for E. coli RNase HI. The free energy changes of unfolding in the absence of denaturant, delta G[H2O], of T. thermophilus RNase H increased by 11.79 kcal/mol at 25 degrees C and 14.07 kcal/mol at 50 degrees C, as compared with E. coli RNase HI.
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PMID:Expression, purification, and characterization of a recombinant ribonuclease H from Thermus thermophilus HB8. 131 54

We have determined the DNA structure of the Ulysses transposable element of Drosophila virilis and found that this transposon is 10,653 bp and is flanked by two unusually large direct repeats 2136 bp long. Ulysses shows the characteristic organization of LTR-containing retrotransposons, with matrix and capsid protein domains encoded in the first open reading frame. In addition, Ulysses contains protease, reverse transcriptase, RNase H and integrase domains encoded in the second open reading frame. Ulysses lacks a third open reading frame present in some retrotransposons that could encode an env-like protein. A dendrogram analysis based on multiple alignments of the protease, reverse transcriptase, RNase H, integrase and tRNA primer binding site of all known Drosophila LTR-containing retrotransposon sequences establishes a phylogenetic relationship of Ulysses to other retrotransposons and suggests that Ulysses belongs to a new family of this type of elements.
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PMID:Ulysses transposable element of Drosophila shows high structural similarities to functional domains of retroviruses. 131 87

We report here the isolation of Foret1, a repeated DNA sequence cloned from the fungal plant pathogen Fusarium oxysporum. This clone exhibits a high degree of sequence similarity with the retroviral pol genes. Sequences homologous to protease, reverse transcriptase, ribonuclease H are found in that order. The overall structure is homologous to the 'gypsy' class of LTR-retrotransposons. Its similarity to elements present in widely different organisms may result from its horizontal transmission in recent evolutionary time.
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PMID:Foret1, a reverse transcriptase-like sequence in the filamentous fungus Fusarium oxysporum. 138 Jun 91

The handle region (residues 84-99) in ribonuclease HI (RNase HI) from Escherichia coli, which is rich in basic amino acid residues, was altered by alanine-scanning mutagenesis. Fifteen mutant proteins were purified to homogeneity and analyzed for the enzymatic activity. A mutation of either of 2 tryptophan residues at 85 or 90 resulted in a large increase in the Km value along with a large decrease in the Vmax value. These values probably resulted from conformational changes introduced by the mutations as indicated by the CD spectra of these mutant proteins. All other mutant enzymes had Vmax values similar to that of the wild-type enzyme. In contrast, replacement of any basic amino acid residue in the handle region, except for lysine 86, yielded proteins whose Km values were 3-5-fold higher than the wild-type enzyme. Such effects were shown to be cumulative, suggesting strongly that the cluster of positive charges in the handle region is important for the effective binding of the substrate. Interestingly, the region of human immunodeficiency virus reverse transcriptase with homology to E. coli RNase HI lacks the handle region which may account for the poor RNase H activity of the domain when separated from the polymerase domain.
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PMID:Importance of the positive charge cluster in Escherichia coli ribonuclease HI for the effective binding of the substrate. 164 12

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 solution structure of the ribonuclease H domain of HIV-1 reverse transcriptase has been investigated by three-dimensional double and triple resonance heteronuclear magnetic resonance spectroscopy. The domain studied has 138 residues and comprises residues 427 to 560 of the 66 kDa reverse transcriptase with an additional four residues at the N terminus. Initial studies on the wild-type protein were hindered by severe differential line broadening, presumably due to conformational averaging. Mutation of the single tryptophan residue located in a loop at position 113 (position 535 in the reverse transcriptase sequence) to an alanine resulted in much improved spectral properties with no apparent change in structure. 1H, 15N and 13C backbone resonances were assigned sequentially using a range of three-dimensional double and triple resonance heteronuclear experiments on samples of uniformly (greater than 95%) 15N and 15N/13C-labeled protein, and the secondary structure was elucidated from a qualitative analysis of data derived from three-dimensional 15N- and 13C-edited nuclear Overhauser enhancement spectra. The secondary structure comprises three alpha-helices and five strands arranged in a mixed parallel/antiparallel beta-sheet with a +1, +1, -3x, -1x topology. The C-terminal region from residue 114 onwards appears to be conformationally disordered in solution as evidenced by an almost complete absence of sequential and medium range nuclear Overhauser effects.
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PMID:Secondary structure of the ribonuclease H domain of the human immunodeficiency virus reverse transcriptase in solution using three-dimensional double and triple resonance heteronuclear magnetic resonance spectroscopy. 171 14

Human endogenous retroviral element S71 had previously been shown to contain gag- and pol-related regions and a 3' LTR-like sequence. The nucleotide sequence of S71 was determined and compared with the corresponding regions of SSV and its helper virus SSAV. The 1.48-kb S71 gag region consists of matrix protein p15 (MA)-, capsid protein p30 (CA)-, and nucleocapsid protein p10 (NC)-related sections and the 1.82-kb pol region of tether, RNase H (RH), and endonuclease/integrase (IN) sections. The S71 nucleotide sequence contains a 167 amino acid open reading frame encompassing MA. The boundaries of the S71 element are delimited by direct repeats and the entire element is 5.4 kb long. Similarity between S71 and the v-sis-bearing, defective SSV provirus also covers overall structural organization, including the presence of presumably nonretroviral sequences. Both the gag and the pol regions of S71 contain sequences highly conserved in numerous retroviruses. Phylogenetic analysis with conserved CA, RH, and IN sequences showed that of all other (C-type) human retroviral elements available for comparison, S71 is most closely related to infectious primate and murine retroviruses. This suggests that S71 represents a phylogenetic subgroup of its own. In addition we identified short ranges of conserved amino acid sequences within C-type retroviral gag and pol genes sufficient for phylogenetic analysis. Use of these may facilitate large-scale phylogenetic evaluation of C-type retroviral elements and allow rapid classification of new elements.
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PMID:S71 is a phylogenetically distinct human endogenous retroviral element with structural and sequence homology to simian sarcoma virus (SSV). 215 93

Inactivation of ribosomes by gelonin, a ribosome-inactivating protein with RNA N-glycosidase activity on 28 S rRNA, requires macromolecular cofactors present in post-ribosomal supernatants. One of these cofactors has been purified from a rat liver extract and identified as an RNA about 70 nt long which in sequence analysis shows a high level of similarity with mammalian (bovine) tRNA(Trp). The pattern of the sequencing gel is consistent with the co-existence in the preparation of two 3'-immature tRNA(Trp) species, missing only A75, or both A75 and C74. In the presence of ATP, CTP and tRNA nucleotidyltransferase, the gelonin-stimulating RNA is a good acceptor of tryptophan. An oligodeoxynucleotide complementary to positions 55 to 72 of mammalian (bovine) tRNA(Trp) hybridizes with the gelonin-stimulating RNA as demonstrated by gel mobility shift and ribonuclease H digestion. The oligodeoxynucleotide-directed ribonuclease H treatment also abolishes the gelonin-promoting activity of crude preparations of RNA, giving strong evidence that the only active RNA is a tRNA(Trp)-like molecule.
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PMID:3'-immature tRNA(Trp) is required for ribosome inactivation by gelonin,a plant RNA N-glycosidase. 764 53

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