EC:2.7.7.49 - FACTA Search

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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Retroviruses and their relatives, the LTR-retrotransposons, possess an integrase protein (IN) that is required for the insertion of reverse transcripts into the genome of host cells. Schizosaccharomyces pombe is the host of Tf1, an LTR-retrotransposon with integration activity that can be studied by using techniques of yeast genetics. In this study, we sought to identify amino acid substitutions in Tf1 that specifically affected the integration step of transposition. In addition to seeking amino acid substitutions in IN, we also explored the possibility that other Tf1 proteins contributed to integration. By comparing the results of genetic assays that monitored both transposition and reverse transcription, we were able to seek point mutations throughout Tf1 that blocked transposition but not the synthesis of reverse transcripts. These mutant versions of Tf1 were candidates of elements that possessed defects in the integration step of transposition. Five mutations in Tf1 that resulted in low levels of integration were found to be located in the IN protein: two substitutions in the N-terminal Zn domain, two in the catalytic core, and one in the C-terminal domain. These results suggested that each of the three IN domains was required for Tf1 transposition. The potential role of these five amino acid residues in the function of IN is discussed. Two of the mutations that reduced integration mapped to the RNase H (RH) domain of Tf1 reverse transcriptase. The Tf1 elements with the RH mutations produced high levels of reverse transcripts, as determined by recombination and DNA blot analysis. These results indicated that the RH of Tf1 possesses a function critical for transposition that is independent of the accumulation of reverse transcripts.
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PMID:The application of a homologous recombination assay revealed amino acid residues in an LTR-retrotransposon that were critical for integration. 944 33

Antisense oligonucleotides (AONs) targeted to the R-region near the 5'-LTR of HIV-1 genomic RNA inhibited both the synthesis of (-) strong stop DNA and the first template-switch reaction catalysed by HIV-1 reverse transcriptase (RT) in vitro. The 18 nucleotide (nt) AONs used were identical in sequence but differed in the sugar component of the 3'-terminal nucleotide, with either 2'-deoxy-D-ribose (DNA), 2'-deoxy-L-ribose (L), or arabinose (ARA) in this position. All three AONs hybridized to complementary 18 nt RNA (T(m) approximately 70 degrees C) and specifically interacted with the target RNA HIV-1 sequence at 37 degrees C. L was unable to serve as primer for RT-catalysed DNA polymerization, whereas priming from ARA was about 30% that noted with DNA. Each of the three AONs resulted in similar 85-95% decreases in the amount of full length (-) strong stop DNA and up to 75% decreases in the first template-switch reaction products formed by RT, implying that elongation of the AONs did not enhance the inhibitory activity in vitro. A concomitant increase in a truncated DNA product corresponding to polymerization termination at the 5'-end of the AON was noted, indicating that RT was unable to displace the AON. Interestingly, near maximal inhibition in vitro an AON:target RNA template ratio of 1:1 was noted. Our results confirm the validity of our in vitro system for the analysis of potential antisense oligonucleotide inhibitors, and suggest that antisense oligonucleotides directed to the R-region of HIV-1 RNA may be effective inhibitors of the initial stages of HIV-1 proviral DNA synthesis.
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PMID:Inhibitory potency of R-region specific antisense oligonucleotides against in vitro DNA polymerization and template-switching reactions catalysed by HIV-1 reverse transcriptase. 945 26

I factors in Drosophila melanogaster are non-LTR retrotransposons similar to mammalian LINEs. They transpose at very high frequencies in the germ line of SF females resulting from crosses between reactive females, devoid of active I factors, and inducer males, containing active I factors. The vermilion marked IviP2 element was designed to allow easy phenotypical screening for retrotransposition events. It is deleted in ORF2 and therefore cannot produce reverse transcriptase. IviP2 can be mobilized at very low frequencies by actively transposing I factors in the germ line of SF females. This paper shows that IviP2 can be mobilized more efficiently in the germ line of strongly reactive females in the absence of active I factors, when it is trans-complemented by the product of ORF2 synthesized from the hsp70 heat-shock promoter. This represents a promising step toward the use of marked I elements to study retrotransposition and as tools for mutagenesis.
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PMID:A genetically marked I element in Drosophila melanogaster can be mobilized when ORF2 is provided in trans. 947 38

The complete nucleotide sequence of the Chlamydomonas eugametos (Chlamydomonadales, Chlorophyceae, sensu Mattox and Stewart) mitochondrial genome has been determined (22,897 bp, 34.6% G + C). The genes identified in this circular-mapping genome include those for apocytochrome b, subunit 1 of the cytochrome oxidase complex, subunits 1, 2, 4, 5, and 6 of the NADH dehydrogenase complex, discontinuous large and small subunit ribosomal rRNAs and three tRNAs whose anticodons CAU, CCA and UUG are specific for methionine, tryptophan and glutamine, respectively. The C. eugametos mitochondrial DNA (mtDNA), therefore, shares almost the same reduced set of coding functions and similar unusual features of rRNA gene organization with the linear 15.8 kb mtDNA of Chlamydomonas reinhardtii, the only other completely sequenced chlamydomonadalean mtDNA. However, sequence analysis of the C. eugametos mtDNA has revealed the following distinguishing features relative to those of C. reinhardtii: (1) the absence of a reverse transcriptase-like gene homologue, (2) the presence of an additional gene for tRNA(met) that may be a pseudogene, (3) a completely different gene order, (4) transcription of all genes from the same mtDNA strand, (5) a lower G + C content, (6) less pronounced bias in codon usage, and (7) nine group I introns, several of which contain open reading frames coding for potential maturases/endonucleases and two have a nucleotide at the 5' or 3' splice site of the deduced precursor RNAs that deviates from highly conserved nucleotides reported in other group I introns. The features of mitochondrial genome organization and gene content shared by C. eugametos and C. reinhardtii contrast with those of other green algal mtDNAs that have been characterized in detail. The deep evolutionary divergence between these two Chlamydomonas taxa within the Chlamydomonadales suggests that their shared features of mitochondrial genome organization evolved prior to the origin of this group.
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PMID:Complete sequence of the mitochondrial DNA of Chlamydomonas eugametos. 948 40

We have isolated and characterized conserved regions of the reverse transcriptase gene from non-LTR retrotransposons, also called long interspersed nuclear elements (LINEs), from Beta vulgaris, B. lomatogona and B. nana. The novel elements show strong homology to other non-LTR retrotransposons from plants, man and animals. LINEs are present in all species of the genus Beta tested, but there was variation in copy number. Analysis by Southern hybridization and fluorescent in situ hybridization revealed the clustered organization of these retroelements in beet species. PCR amplification using degenerate primers to conserved motifs of the predicted LINE protein sequence enabled the cloning of LINEs from both Monocotyledonae (Allium cepa, Oryza sativa and Secale cereale) and Dicotyledonae (Nicotiana tabacum and Antirrhinum majus) indicating that LINEs are a universal feature of plant genomes. A dendrogram of fifteen new and six previously isolated sequences showed the high level of sequence divergence while revealing families characteristic of some genera. The genomic organization of non-LTR retrotransposons was examined more detailed in A. majus and O. sativa.
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PMID:The genomic organization of non-LTR retrotransposons (LINEs) from three Beta species and five other angiosperms. 952 Feb 75

HeT-A was the first transposable element shown to have a bona fide role in chromosome structure, maintenance of telomeres in Drosophila melanogaster. HeT-A has hallmarks of non-long-terminal-repeat (non-LTR) retrotransposable elements but also has several unique features. We have now isolated HeT-A elements from Drosophila yakuba, showing that the retrotransposon mechanism of telomere maintenance predates the separation of D. melanogaster and D. yakuba (5-15 million years ago). HeT-A elements from the two species show significant sequence divergence, yet unusual features seen in HeT-Amel are conserved in HeT-Ayak. In both species, HeT-A elements are found in head-to-tail tandem arrays in telomeric heterochromatin. In both species, nearly half of the HeT-A sequence is noncoding and shows a distinctive imperfect repeat pattern of A-rich segments. Neither element encodes reverse transcriptase. The HeT-Amel promoter appears to be intermediate between the promoters of non-LTR and of LTR retrotransposons. The HeT-Ayak promoter shows similar features. HeT-Amel has a frameshift within the coding region. HeT-Ayak does not require a frameshift but shows conservation of the polypeptide sequence of the frameshifted product of D. melanogaster.
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PMID:Unusual features of the Drosophila melanogaster telomere transposable element HeT-A are conserved in Drosophila yakuba telomere elements. 952 Apr 42

The participation of viruses in mammary carcinogenesis has been largely studied in animals. A model similar to the mouse mammary tumor virus (MMTV) was previously proposed. Several lines of research supported the participation of MMTV in human breast cancer, but these evidences were contradicted when further research was performed. One major issue was the presence of human endogenous retroviral sequences that confounded results reporting MMTV-like sequences in human breast cancer. To overcome this problem we selected a 660 bp sequence of the MMTV env gene with low homology to endogenous sequences and search for a sequence to it using the polymerase chain reaction (PCR). The sequence was found in 38% of the human breast cancers and in 2% of the normal breasts studied. The sequence was not present in tumors from other organs. It was 90-98% homologous to MMTV and only 18% to human endogenous retrovirus (HERV) K-10. It was also detected in some of the positive tumors by Southern blot hybridization using one of the cloned 660 bp as a probe. Using reverse transcriptase PCR, it was possible to demonstrate that the 660 bp sequence is expressed in the majority of the tumors. Also, preliminary experiments revealed that sequences related to the LTR and gag genes of MMTV were present in the DNA of breast tumors. The origin of the MMTV-like sequences in tumor DNA could be the result of integrated MMTV-like sequences derived from a human mammary virus or may represent unknown endogenous sequences that can only be detected in breast tumors.
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PMID:[Searching for retroviral sequences related to human breast cancer]. 956 45

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

Long interspersed elements, or LINEs, are retrotransposons that move via an RNA intermediate. In mice, one polymorphic variant of L1 has amplified relatively recently, giving rise to the A-type subfamily in species belonging to the genus and subgenus Mus. Retrotransposition of LINE-1 (L1) requires the function of the L1-encoded reverse transcriptase that is produced from open reading frame 2 (ORF2). Here, we employ a convenient yeast genetic assay to determine the reverse transcriptase activity of the ORF2 obtained from three A-type L1 elements: one, a cDNA from the RNA in ribonucleoprotein particles; another with a purported inactivating mutation; and the third, a hypothetical ancestral construct. Because there are no examples of A-type elements that have transposed recently to inactivate a gene, this assay is the first step towards demonstrating the functional capability of mouse A-type LINE-1 elements. One of the three elements was believed to have been inactivated during evolution by the substitution of leucine for a highly conserved phenylalanine or tryptophan residue among known reverse transcriptases. This mutation did not inactivate the L1 reverse transcriptase in the yeast assay; thus, all three of the elements tested encoded reverse transcriptase activity. We further examined the minimal reverse transcriptase domain within ORF2 by creating a series of deletions. The results demonstrate that removal of the L1 endonuclease domain from the N-terminal region of ORF2 does not affect reverse transcriptase activity as determined by this assay, and that approximately half of the ORF2 coding sequence from mouse A-type L1 elements is required for functional reverse transcriptase.
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PMID:Functional reverse transcriptases encoded by A-type mouse LINE-1: defining the minimal domain by deletion analysis. 966 81

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

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