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)

A retrotransposon named Lian-Aa1 was discovered in an intron of an AaHR3-1 gene of the yellow fever mosquito, Aedes aegypti. This retrotransposon contained a long open reading frame with 1,219 amino acids that included endonuclease, reverse transcriptase, and RNase H domains. It was shown that in the Rock strain of Ae. aegypti, there were up to 1,380 copies of Lian elements, equivalent to 0.8% of the entire genome. Five additional copies of Lian elements were isolated, mapped by restriction digestion, and partially sequenced. The 5' and 3' ends of the Lian family were determined by comparing the terminal sequences of the six copies and were subsequently confirmed by the identification of putative target duplications flanking Lian-Aa1 and Lian-Aa2. The Lian family is likely a novel family of non-long-terminal-repeat (non-LTR) retrotransposons that terminate in a repeat of (CTGA-TAC)2. On average, the six copies of Lian elements showed only 0.6% sequence divergence at the nucleotide level in both a 735-bp region at the 5' end and a 1,124-bp coding region. Genomic Southern blots also revealed a very high degree of similarity among hundreds of Lian elements, suggesting very recent activity of Lian. Furthermore, all six analyzed Lian elements were closely associated with one or more different families of repetitive elements. It is possible that these associations could reflect the complex relationship between Lian elements and the rest of the Ae. aegypti genome. Phylogenetic analyses based on the reverse transcriptase, domains of 36 non-LTR retrotransposons including Lian-Aa1 identified five major subgroups that were supported by bootstrap replications. In contrast to the majority of non-LTR retrotransposons, Lian-Aa1 has an RNase H domain that is similar to a few other non-LTR retrotransposons and some retroviruses, which is consistent with the previously proposed independent assortment of different domains during the evolution of retroelements.
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PMID:Structural, genomic, and phylogenetic analysis of Lian, a novel family of non-LTR retrotransposons in the yellow fever mosquito, Aedes aegypti. 965 85

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.
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PMID:A retrotransposon family from the pufferfish (fugu) Fugu rubripes. 971 21

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.
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PMID:A map of interactions between the proteins of a retrotransposon. 976 82

A comprehensive phylogenetic analysis was conducted of non-long-terminal-repeat (non-LTR) retrotransposons based on an extended sequence alignment of their reverse transcriptase (RT) domain. The 440 amino acid positions used included a region proposed to be similar to the "thumb" of the right-handed RT structure found in retroviruses. All identified non-LTR elements could be grouped into 11 distinct clades. Using the rates of sequence change derived from studies of the vertical inheritance of R1 and R2 elements in arthropods as a comparison, we found no evidence for the horizontal transmission of non-LTR elements. Assuming vertical descent, the phylogeny suggested that non-LTR elements are as old as eukaryotes, with each of the 11 clades dating back to the Precambrian era. The analysis enabled us to propose a simple chronology for the acquisition of different enzymatic domains in the evolution of the non-LTR class of retrotransposons. The first non-LTR elements were sequence specific by virtue of a restriction-enzyme-like endonuclease located downstream of the RT domain. Evolving from this original group were elements (eight clades) that acquired an apurinic-apyrimidic endonuclease-like domain upstream of the RT domain. Finally, four of these clades have inherited an RNase H domain downstream of the RT domain. The phylogenies of the AP endonuclease and RNase H domains were also determined for this report and are consistent with the monophyletic acquisition of these domains. These studies represent the most comprehensive effort to date to trace the evolution of a major class of transposable elements.
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PMID:The age and evolution of non-LTR retrotransposable elements. 1036 57

During retrovirus replication, reverse transcriptase (RT) must specifically interact with the polypurine tract (PPT) to generate and subsequently remove the RNA primer for plus-strand DNA synthesis. We have investigated the role that human immunodeficiency virus-1 RT residues in the alphaH and alphaI helices in the thumb subdomain play in specific RNase H cleavage at the 3'-end of the PPT; an in vitro assay modeling the primer removal step was used. Analysis of alanine-scanning mutants revealed that a subgroup exhibits an unusual phenotype in which the PPT is cleaved up to seven bases from its 3'-end. Further analysis of alphaH mutants (G262A, K263A, N265A, and W266A) with changes in residues in or near a structural motif known as the minor groove binding track showed that the RNase H activity of these mutants is more dramatically affected with PPT substrates than with non-PPT substrates. Vertical scan mutants at position 266 were all defective in specific RNase H cleavage, consistent with conservation of tryptophan at this position among lentiviral RTs. Our results indicate that residues in the thumb subdomain and the minor groove binding track in particular, are crucial for unique interactions between RT and the PPT required for correct positioning and precise RNase H cleavage.
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PMID:Residues in the alphaH and alphaI helices of the HIV-1 reverse transcriptase thumb subdomain required for the specificity of RNase H-catalyzed removal of the polypurine tract primer. 1039 34

A novel family of non-long-terminal-repeat (non-LTR) retrotransposons, named MosquI, was discovered in the yellow fever mosquito, Aedes aegypti. There were approximately 14 copies of MosquI in the A. aegypti genome. Four of the five analyzed MosquI elements were truncated at the 5' ends while one of them, MosquI-Aa2, was full-length. All five MosquI elements ended with 4-10 TAA tandem repeats, as the Drosophila I factors do. Interestingly, MosquI elements were often found near genes and other repetitive elements. The 6,623-bp MosquI-Aa2 contained two open reading frames (ORFs) flanked by a 404-bp 5' untranslated region and a 326-bp 3' untranslated region. The two ORFs code for nucleocapsids, endonuclease, reverse transcriptase, and RNase H domains. Although overall structural and sequence comparisons suggest that MosquI is highly similar to the Drosophila I factors, phylogenetic analysis based on the reverse transcriptase domains of 40 non-LTR retrotransposons indicate that MosquI and I factors are likely paralogous elements which may have been separated before the split between the ancestors of mollusca and arthropoda. Pairwise comparisons between the four truncated MosquI elements showed 96.7%-99.5% identity at the nucleotide level, while comparisons between the full-length MosquI-Aa2 and the truncated copies showed only 80.2%-81.8% identity. These comparisons and preliminary phylogenetic analyses suggest that the full-length and truncated MosquI elements may belong to two subfamilies originating from two source genes that diverged a long time ago. In contrast to the defective I factors in Drosophila melanogaster, which are likely very old components of the genome, the truncated MosquI elements seem to have been recently active. Finally, the genomic distribution and evolution of MosquI elements are analyzed in the context of other non-LTR retrotransposons in A. aegypti.
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PMID:MosquI, a novel family of mosquito retrotransposons distantly related to the Drosophila I factors, may consist of elements of more than one origin. 1060 10

SIRE-1 is a multi-copy, Ty1-copia-like retroelement family found in the genome of Glycine max. A sequenced SIRE-1 genomic copy has an uninterrupted ORF that can be translated into a gag-pol polyprotein, followed by an unprecedented second ORF whose conceptual translation yielded a theoretical protein predicted to possess many of the same secondary structural elements found in mammalian retroviral envelope proteins. Similar, but clearly pseudogenic, envelope-like sequences were recovered from conceptual translations of 10 Arabidopsis GenBank accessions. All were associated with identifiable Ty1-copia-like retroelements. Phylogenetic analysis of the adjacent ribonuclease H regions from these sequences and three similarly endowed elements, two from maize and one from tomato, indicate that the 14 elements constitute a monophyletic group distinct from several closely related plant Ty1-copia-like elements in which pol is immediately followed by a downstream LTR. The conservation of identifiable env-like gene features suggests that these plant elements are endogenous retroviruses whose ancestors were acquired from animal vectors. The finding that the env and env-less retroelements identified in this study form distinct lineages does not support the hypothesis that horizontal transmission of retrotransposons is sponsored by ancestral infectious retroviruses that subsequently lost all traces of env genes.
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PMID:Phylogenetic evidence for Ty1-copia-like endogenous retroviruses in plant genomes. 1095 1

The deduced amino acid sequence of the region downstream of the reverse transcriptase (RT) motif of the Trypanosoma cruzi L1Tc non-LTR retrotransposon shows a significant homology with the sequence coding for proteins with RNase H activity from different organisms and retroelements. The 25-kDa His(6)-tagged recombinant protein bearing only the L1Tc RNase H domain, named RHL1Tc, exhibits RNase H activity as measured on the [(3)H]poly(rA)/poly(dT) hybrid used as substrate as well as on specific homologous and heterologous [(32)P]RNA/DNA hybrids. The mutation of the conserved aspartic acid at position 39 of the enzyme catalytic site, but not of the serine at position 56 (non-conservative amino acid), abolishes protein RNase H activity. The RNase H activity of the RHL1Tc protein is Mg(2+)-dependent, and it is also active in the presence of the Mn(2+) ion. The optimal condition of RNase H activity is found at pH 8 and 37 degrees C, although it also has significant enzymatic activity at 19 degrees C and pH 6. However, it cannot be excluded that the RNase H activity level and its optimal conditions may be different from that of a protein containing both RT and RNase H domains.
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PMID:The non-LTR (long terminal repeat) retrotransposon L1Tc from Trypanosoma cruzi codes for a protein with RNase H activity. 1203 56

Database searches of the Caenorhabditis elegans and human genomic DNA sequences revealed genes encoding ribonuclease H1 (RNase H1) and RNase H2 in each genome. The human genome contains a single copy of each gene, whereas C. elegans has four genes encoding RNase H1-related proteins and one gene for RNase H2. By analyzing the mRNAs produced from the C. elegans genes, examining the amino acid sequence of the predicted protein, and expressing the proteins in Esherichia coli we have identified two active RNase H1-like proteins. One is similar to other eukaryotic RNases H1, whereas the second RNase H (rnh-1.1) is unique. The rnh-1.0 gene is transcribed as a dicistronic message with three dsRNA-binding domains; the mature mRNA is transspliced with SL2 splice leader and contains only one dsRNA-binding domain. Formation of RNase H1 is further regulated by differential cis-splicing events. A single rnh-2 gene, encoding a protein similar to several other eukaryotic RNase H2L's, also has been examined. The diversity and enzymatic properties of RNase H homologues are other examples of expansion of protein families in C. elegans. The presence of two RNases H1 in C. elegans suggests that two enzymes are required in this rather simple organism to perform the functions that are accomplished by a single enzyme in more complex organisms. Phylogenetic analysis indicates that the active C. elegans RNases H1 are distantly related to one another and that the C. elegans RNase H1 is more closely related to the human RNase H1. The database searches also suggest that RNase H domains of LTR-retrotransposons in C. elegans are quite unrelated to cellular RNases H1, but numerous RNase H domains of human endogenous retroviruses are more closely related to cellular RNases H.
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PMID:Multiple ribonuclease H-encoding genes in the Caenorhabditis elegans genome contrasts with the two typical ribonuclease H-encoding genes in the human genome. 1241

Methionine at position 184 of human immunodeficiency virus type-1 (HIV-1) reverse transcriptase (RT) was changed to valine, isoleucine, threonine, or alanine in an HIV-1-based vector. The vectors were analyzed for replication capacity and for resistance to the nucleoside analog 2',3'-dideoxy-3'thiacytidine (3TC) using a single-cycle assay. Viruses containing the valine or isoleucine mutations were highly resistant to 3TC and replicated almost as well as the wild-type virus. The virus containing the threonine mutation was resistant to 3TC, but replicated about 30% as well as the wild-type. The alanine mutation conferred partial resistance to 3TC, but replicated poorly. The amounts of viral DNA synthesized decreased in 3TC-treated cells when the cells were infected with wild-type virus and the M184A mutant. The effect of these mutations on the generation of the ends of the linear viral DNA was determined using the sequence of the 2-LTR circle junctions. The M184T mutation increased the proportion of 2-LTR circle junctions containing a tRNA insertion, suggesting that the mutation affected the RNase H activity of RT.
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PMID:Mutations at position 184 of human immunodeficiency virus type-1 reverse transcriptase affect virus titer and viral DNA synthesis. 1506 12

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