Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.26.4 (RNase H)
 2,751 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Spumaviruses, or foamy viruses, express a pol-specific transcript that codes for a Pol polyprotein that consists of the protease, reverse transcriptase, ribonuclease H, and the integrase domains. To delineate the proteolytic cleavage sites between the Pol subdomains, recombinant human foamy virus (HFV) Pol proteins were expressed, purified by affinity chromatography, and subjected to either HFV protease assays or autocatalytic processing. In control experiments, HFV protease-deficient mutant proteins in which the active site Asp was replaced by an Ala residue were used to rule out unspecific processing by nonviral proteases. Specific proteolytic cleavage products were isolated, and the cleavage sites were analyzed by amino acid sequencing. Peptides spanning the resulting cleavage sites were chemically synthesized and assayed with HFV protease, and the cleaved peptides were subjected to mass spectrometry. The cleavage site sequences obtained were in complete agreement with the amino-terminal sequences from amino acid sequencing of authentic cleavage products of the HFV Pol proteins. Analysis by fast-protein liquid chromatography of a short version of the active HFV protease revealed that the enzyme predominantly formed dimeric molecules.
 ...
PMID:Molecular characterization of proteolytic processing of the Pol proteins of human foamy virus reveals novel features of the viral protease. 969 69

In this study we describe the isolation and characterisation of the first full-length vertebrate retrotransposon. Knowledge of vertebrate gypsy LTR-retrotransposons has been limited to short internal sequences from three fish and a corrupt sequence from a salamander. This paper describes the sequence of a full-length (5.645 kb) retrotransposon from the fugu fish Fugu rubripes. The retrotransposon, termed sushi-ichi (032H04), is a representative of a retrotransposon family (sushi) found as multiple copies within the fish genome. Two long open reading frames (ORFs) are predicted from the sequence. The first has homology to retroviral gag genes. The second includes sequences homologous to protease, reverse transcriptase/RNase H and integrase domains, in that order. Sequence comparisons of the predicted ORFs indicate that this element is related to the gypsy class of LTR-retrotransposons. Specifically, the sushi retrotransposons are most closely related to the retrotransposon group which includes the MAGGY retroelement from the rice blast fungus Magnaporthe grisea and the CfT-1 element from the fungal tomato pathogen Cladosporium fulvum.
 ...
PMID:A retrotransposon family from the pufferfish (fugu) Fugu rubripes. 971 21

Retrotransposon-like sequences have been serendipitously detected in the genome of commercial pineapple, Ananas comosus. The sequence from a 2.6 kb cloned fragment of this element had greatest similarity to the del1 Lilium henryi retrotransposon and the gypsy/Ty3 group of retroelements. The order of the genes from 5' to 3' was reverse transcriptase, ribonuclease H and integrase. The integrase domain contained the amino acid sequence motifs which have been associated with recognition of the long terminal repeats and with the cutting/joining reactions required for integration of similar retroelements into the host genome. The retrotransposon existed as a population of variable sequences which were dispersed throughout the genome of pineapple. Southern hybridisation showed that the retrotransposon had integrated repeatedly into the pineapple genome. The reading frame of the element was not interrupted by stop codons, suggesting that it is still potentially capable of transposing. This is the first report of a retrotransposon in pineapple, which we have called deal (for dispersed element of Ananas).
 ...
PMID:Retrotransposon-like sequences integrated into the genome of pineapple, Ananas comosus. 974 53

The yeast two-hybrid system and in vitro binding assays were used to characterize 54 potential interactions between the proteins of Tf1, an LTR-retrotransposon found in Schizosaccharomyces pombe. The Tf1 integrase (IN) protein was found to interact strongly with itself and not with other control proteins. In addition, the IN core domain interacted strongly with itself and full-length IN. Interestingly, the two-hybrid analysis detected an interaction between the RNase H domain of reverse transcriptase and IN. The biological implications of these interactions are discussed.
 ...
PMID:A map of interactions between the proteins of a retrotransposon. 976 82

The Tf2 retrotransposon, found in the fission yeast Schizosaccharomyces pombe, is nearly identical to its sister element, Tf1, in its reverse transcriptase-RNase H and integrase domains but is very divergent in the gag domain, the protease, the 5' untranslated region, and the U3 domain of the long terminal repeats. It has now been demonstrated that a neo-marked copy of Tf2 overexpressed from a heterologous promoter can mobilize into the S. pombe genome and produce true transposition events. However, the Tf2-neo mobilization frequency is 10- to 20-fold lower than that of Tf1-neo, and 70% of the Tf2-neo events are homologous recombination events generated independently of a functional Tf2 integrase. Thus, the Tf2 element is primarily dependent on homologous recombination with preexisting copies of Tf2 for its propagation. Finally, production of Tf2-neo proteins and cDNA was also analyzed; surprisingly, Tf2 was found to produce its reverse transcriptase as a single species in which it is fused to protease, unlike all other retroviruses and retrotransposons.
 ...
PMID:Schizosaccharomyces pombe retrotransposon Tf2 mobilizes primarily through homologous cDNA recombination. 977 97

Protein interactions with double-stranded RNA (dsRNA) are critical for many cell processes; however, in contrast to protein-dsDNA interactions, surprisingly little is known about the molecular basis of protein-dsRNA interactions. A large and diverse class of proteins that bind dsRNA do so by utilizing an approximately 70 amino acid motif referred to as the dsRNA-binding domain (dsRBD). We have determined a 1.9 A resolution crystal structure of the second dsRBD of Xenopus laevis RNA-binding protein A complexed with dsRNA. The structure shows that the protein spans 16 bp of dsRNA, interacting with two successive minor grooves and across the intervening major groove on one face of a primarily A-form RNA helix. The nature of these interactions explains dsRBD specificity for dsRNA (over ssRNA or dsDNA) and the apparent lack of sequence specificity. Interestingly, the dsRBD fold resembles a portion of the conserved core structure of a family of polynucleotidyl transferases that includes RuvC, MuA transposase, retroviral integrase and RNase H. Structural comparisons of the dsRBD-dsRNA complex and models proposed for polynucleotidyl transferase-nucleic acid complexes suggest that similarities in nucleic acid binding also exist between these families of proteins.
 ...
PMID:Molecular basis of double-stranded RNA-protein interactions: structure of a dsRNA-binding domain complexed with dsRNA. 985 5

Poly(1-methyl-6-thioinosinic acid), or PMTI, is a single-stranded polyribonucleotide and is the first homopolyribonucleotide devoid of Watson-Crick hydrogen bonding sites to show potent human immunodeficiency virus (HIV) inhibition. PMTI was found to be active when evaluated against a variety of low passage clinical HIV isolates in fresh human peripheral blood cells, including T cell-tropic and monocyte-macrophage-tropic viruses, syncytium-inducing and non-syncytium-inducing viruses and viruses representative of the various HIV-1 clades (A through F). The compound was active against HIV-2, all nucleoside and non-nucleoside reverse transcriptase (RT) inhibitor drug-resistant virus isolates tested and interacted with AZT or ddl to synergistically inhibit HIV infection. In biochemical inhibition assays, PMTI was determined to be a potent inhibitor of HIV-1 and HIV-2 RT, including RTs with mutations that engender resistance to nucleoside and non-nucleoside RT inhibitors. PMTI inhibited both the polymerase and RNase H activities of HIV RT. PMTI did not inhibit HIV-1 protease or integrase. Cell-based mechanism of action assays indicated that PMTI also interfered with early events in the entry of HIV into target cells. Furthermore, PMTI inhibited the fusion of gp120-expressing and CD4-expressing cells, but at concentrations approximately 1 log10 greater than those that inhibited virus entry. These results suggest that the homopolyribonucleotide PMTI blocks HIV replication in human cells at its earliest stages by multiple mechanisms, inhibition of virus entry and inhibition of RT.
 ...
PMID:PMTI, a broadly active unusual single-stranded polyribonucleotide, inhibits human immunodeficiency virus replication by multiple mechanisms. 1007 76

HIV integrase consists of three domains, the structures of which have been individually determined by X-ray crystallography or NMR spectroscopy. The core domain, spanning residues 50-212, is responsible for the catalytic activity of the enzyme. The crystal structure of a dimer of this domain shows similarity to other proteins that carry out polynucleotidyl transfer, including MuA transposase and RNase H. The small N-terminal domain folds into a dimeric helix-turn-helix structure, which is stabilized by the coordination of zinc with conserved His and Cys residues. The function of this domain is unclear; however, it is required for integration activity and enhances tetramerization in the context of the full-length integrase. The C-terminal domain, which has an SH3-like fold, is involved in DNA binding. The structure of this domain reveals a large saddle-shaped cleft that is formed by dimerization. This cleft contains a number of positively charged residues, and its dimensions are appropriate for accommodating a double-stranded DNA helix. Although the C-terminal domain was originally believed to be involved in target DNA binding, more recent evidence suggests that it may bind to both the ends of the viral DNA and to the target DNA. Although the individual domain structures provide some insights into the function of the protein, a more detailed understanding of the complete mechanism by which integrase binds, cleaves, and transfers DNA requires a greater knowledge of how these domains are arranged in the active multimer.
 ...
PMID:HIV integrase structure and function. 1038 40

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.
 ...
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.
 ...
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


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>