EC:2.7.7.49 - FACTA Search

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Query: EC:2.7.7.49 (reverse transcriptase)
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Early chicken embryos that are either positive or negative for group-specific antigens of avian leukosis viruses contained endogenous RNA-directed DNA polymerase activity. This endogenous DNA polymerase activity was not increased after mixture of soluble DNA polymerases isolated from chicken embryos with disrupted chicken embryo cells. The endogenous activity was resistant to treatment with deoxyribonuclease, and the initial rate of DNA synthesis was partially resistant to actinomycin D. In contrast, over 90% of the endogenous polymerase activity was destroyed by ribonuclease in medium with high salt concentration. The DNA product of the endogenous DNA polymerase activity from chicken embryos did not hybridize with RNA of Rous sarcoma virus or reticuloendotheliosis virus, whereas about 40% of this DNA product hybridized with the RNA from the same chicken-cell fraction. Antibody against DNA polymerase of avian myeloblastosis virus did not neutralize the chicken endogenous DNA polymerase activity. These results demonstrate that uninfected chicken embryo cells contain endogenous RNA-directed DNA polymerase activity that is not derived from avian leukosis or reticuloendotheliosis viruses.
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PMID:Endogenous RNA-directed DNA polymerase activity in uninfected chicken embryos. 433 97

The DNA of all species is constantly under threat from both endogenous and exogenous factors, which damage its chemical structure. Probably the most common lesion that arises in cellular DNA is the loss of a base to generate an abasic site, which is usually referred to as an apurinic or apyrimidinic (AP) site. Since these lesions are potentially both cytotoxic and mutagenic, cells of all organisms express dedicated repair enzymes, termed AP endonucleases, to counteract their damaging effects. Indeed, many organisms consider it necessary to express two or more of these lesion-specific endonucleases, underscoring the requirement that exists to remove AP sites for the maintenance of genome integrity and cell viability. Most AP endonucleases are very versatile enzymes, capable of performing numerous additional repair roles. In this article, we review the AP endonuclease class of repair enzymes, with emphasis on the evolutionary conservation of structural features, not only between prokaryotic and eukaryotic homologues, but also between these enzymes and the RNase H domain of one class of reverse transcriptase.
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PMID:Structure and function of apurinic/apyrimidinic endonucleases. 766 52

To evaluate the specificity and applicability to the study of human tumor cells of the reverse transcription (RT) in situ PCR and RT polymerase chain reaction (PCR) in situ hybridization techniques, we examined five melanoma cell lines and five nonmelanoma lines for tyrosinase mRNA using primers specific for tyrosinase. Each procedural step was optimized and minutely controlled, and results from the in situ techniques and solution-phase RT-PCR were compared. All melanoma lines showed a specific pattern of perinuclear cytoplasmic reaction not seen in nonmelanoma lines. There was exact agreement between the results from the RT in situ PCR and RT-PCR in situ hybridization techniques and those from solution-phase RT-PCR. Ribonuclease digestion abolished cytoplasmic staining, as did omission of the reverse transcriptase step. Nuclear staining was seen in melanoma and nonmelanoma lines, apparently as a result of DNA synthesis from repair-replication and mispriming or nonspecific amplification. Neither high concentrations of deoxyribonuclease nor long incubation periods abolished this effect completely. Demonstration of cytoplasmic mRNA by RT in situ PCR and RT-PCR in situ hybridization specifically identifies cells of melanocytic lineage.
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PMID:Demonstration of cytoplasmic tyrosinase mRNA in tissue-cultured cells by reverse transcription (RT) in situ polymerase chain reaction (PCR) and RT PCR in situ hybridization. 902 34

A P1 cloned insert of about 85.5 kilobases (kb) was isolated, containing four members of the human growth hormone/chorionic somatomammotropin (GH/CS) gene family and the thyroid hormone receptor interacting protein (TRIP-1) gene. The presence of the CS-like, CS-A, GH-variant and, most downstream, CS-B gene was confirmed by DNA blotting and sequence analysis. The TRIP-1 gene was detected 40 kb downstream of the CS-B gene and in the reverse transcriptional orientation to all the GH/CS genes. The TRIP-1 gene is highly homologous to the SUG-1 gene in yeast and is evolutionarily conserved among several species. Based on the common location of the GH and TRIP-1 (or homologue) genes on the same chromosome in the human, pig and rat genomes, we suggest that these loci are physically linked. Previously, it was reported that a muscle-specific sodium channel (SCN4A) gene is located immediately upstream of the pituitary growth hormone (GH-N) gene, and is linked to the GH gene locus in both humans and rats. This suggests a further linkage between the SCN4A, GH and TRIP-1 loci. Also, deoxyribonuclease hypersensitive sites have been reported in and around these loci and were associated with an important locus control region for the GH/CS genes. Unlike the GH/CS genes, we show, using reverse transcriptase-polymerase chain reaction that the TRIP-1 gene is expressed ubiquitously and, through RNA blotting, as a 1.4-kb transcript. This implies an open and active chromatin structure. The possible effect of this structure on the adjacent human GH/CS gene locus is discussed.
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PMID:Physical linkage of the human growth hormone gene family and the thyroid hormone receptor interacting protein-1 gene on chromosome 17. 966 65

As in other eukaryotes, a substantial portion of the genome of the human blood flukes belonging to the genus Schistosoma appears to be composed of mobile genetic elements and other repetitive sequences. The constitutent elements and their relative organization are not well understood, although retroposons (the SM alpha elements) and a family of non-long terminal repeat (LTR) retrotransposons (the SR1 elements) have been reported from the genome of Schistosoma mansoni. Here, we report the presence of a second family of non-LTR retrotransposons from S. mansoni which we have termed the SR2 elements. SR2 elements are members of a recently described lineage of non-LTR retrotransposons typified by the RTE-1 non-LTR retrotransposon of Caenorhabditis elegans. We determined the sequence for approximately 3.9 kb of a consensus full-length SR2 element, which included a long 5' untranslated region (UTR), potential first and second open reading frames (ORFs) of 78 and 1,018 amino acid residues, respectively, a short 3' UTR, and an A-rich 3' terminus. SR2 elements were bound by target site duplications. The putative first and second ORFs did not overlap. The second ORF was homologous to retroviral pol and encoded an apurinic/apyrimidinic endonuclease and a reverse transcriptase. A number of extremely short SR2 elements of less than 0.5 kb, reminiscent of SINEs, were also characterized. These consisted solely of the 5' and 3' UTRs of full-length SR2 elements, having both ORFs deleted. Analysis indicated that these SINE-like SR2 elements were produced by replication of a SINE-like SR2 element, rather than by repeated deletions within larger SR2 elements.
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PMID:SR2 elements, non-long terminal repeat retrotransposons of the RTE-1 lineage from the human blood fluke Schistosoma mansoni. 1048 81

Rex1, together with the related BABAR: elements, represents a new family of non-long-terminal-repeat (non-LTR) retrotransposons from fish, which might be related to the CR1 clade of LINE elements. Rex1/BABAR: retrotransposons encode a reverse transcriptase and an apurinic/apyrimidinic endonuclease, which is very frequently removed by incomplete reverse transcription. Different Rex1 elements show a conserved terminal 3' untranslated region followed by oligonucleotide tandem repeats of variable size and sequence. Phylogenetic analysis revealed that Rex1 retrotransposons were frequently active during fish evolution. They formed multiple ancient lineages, which underwent several independent and recent bursts of retrotransposition and invaded fish genomes with varying success (from <5 to 500 copies per haploid genome). At least three of these ancient Rex1 lineages were detected within the genome of poeciliids. One lineage is absent from some poeciliids but underwent successive rounds of retrotransposition in others, thereby increasing its copy number from <10 to about 200. At least three ancient Rex1 lineages were also detected in the genome project fish Fugu rubripes. Rex1 distribution within one of its major lineages is discontinuous: Rex1 was found in all Acanthopterygii (common ancestor in the main teleost lineage approximately 90 MYA) and in both European and Japanese eels (divergence from the main teleost lineage about 180 MYA) but not in trout, pike, carp, and zebrafish (divergence 100-120 MYA). This might either result from frequent loss or rapid divergence of Rex1 elements specifically in some fish lineages or represent one of the very rare examples of horizontal transfer of non-LTR retrotransposons. This analysis highlights the dynamics and complexity of retrotransposon evolution and the variability of the impact of retrotransposons on vertebrate genomes.
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PMID:Multiple lineages of the non-LTR retrotransposon Rex1 with varying success in invading fish genomes. 1107 55

All autonomous non-long terminal repeat (non-LTR) retrotransposons reported to date in vertebrates encode an apurinic/apyrimidinic endonuclease-like enzyme necessary for target sequence cleavage and subsequent target-primed reverse transcription. We describe here vertebrate non-LTR retrotransposons encoding another type of endonuclease more related to type IIS restriction enzymes. Such retrotransposons have been detected until now only in trypanosomes, nematodes, and arthropods. The retrotransposon Rex6 was identified in the genome of several teleost fish including Xiphophorus maculatus (platyfish), Oryzias latipes (medakafish), Oreochromis niloticus (Nile tilapia), and Fugu rubripes (Japanese pufferfish). Rex6 encodes a reverse transcriptase and a putative restriction enzyme-like endonuclease and is a member of the R4 family of non-LTR retrotransposons containing the Dong and R4 elements found in nematodes and insects. Rex6 was active in many species during teleost evolution and underwent several bursts of retrotransposition (some of them being relatively recent) leading to a high copy number of Rex6 in the genome of numerous fish. Extremely truncated Rex6-related sequences were detected by database screening in reptiles, including the snake Trimeresus flavoviridis and the lizard Anolis carolinensis, but not in sequences from the human genome project, suggesting that this element might have been lost from certain vertebrate lineages.
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PMID:Non-LTR retrotransposons encoding a restriction enzyme-like endonuclease in vertebrates. 1134 31

This study examined the evolutionary dynamics of Bov-B LINEs in vertebrates and the evolution of the RTE clade of non-LTR retrotransposons. The first full-length reptilian Bov-B LINE element is described; it is 3.2 kb in length, with a structural organization typical of the RTE clade of non-LTR retrotransposons. The long-term evolution of Bov-B LINEs was studied in 10 species of Squamata by analysis of a PCR-amplified 1.8-kb fragment encoding part of apurinic/apyrimidinic endonuclease, the intervening domain, and the palm/fingers subdomain of reverse transcriptase. A very high level of conservation in Squamata Bov-B long interspersed nuclear elements has been found, reaching 86% identity in the nearly 600 amino acids of ORF2. The same level of conservation exists between the ancestral snake lineage and Ruminantia. Such a high level is exceptional when compared with the level of conservation observed in nuclear and mitochondrial proteins and in other transposable elements. The RTE clade has been found to be much more widely distributed than previously thought, and novel representatives have been discovered in plants, brown algae, annelids, crustaceans, mollusks, echinoderms, and teleost fishes. Evolutionary relationships in the RTE clade were deduced at the amino acid level from three separate regions of ORF2. By using different independent methods, including the divergence-versus-age analysis, several examples of horizontal transfer in the RTE clade were recognized, with important implications for the existence of HT in non-LTR retrotransposons.
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PMID:Evolutionary dynamics and evolutionary history in the RTE clade of non-LTR retrotransposons. 1155 92

The glycolipid galactosyldiacylglycerol (GDG), containing C16:0 and C18:1 fatty acids, was isolated from the sea alga Petalonia bingbamiae as a potent inhibitor of the activities of mammalian DNA polymerase alpha (pol. alpha). GDG, however, had no effect on pol. alpha from a fish or a higher plant. The inhibition of pol. alpha by GDG was dose-dependent with an IC50 value of 54 microM. The compound did not influence the activities of other replicative DNA polymerases such as mammalian pol. delta, or repair-related enzymes such as mammalian pol. beta. GDG also did not influence the activities of prokaryotic DNA polymerases such as the Klenow fragment of DNA polymerase I, T4 DNA polymerase, Taq DNA polymerase, DNA polymerases from the higher plant, cauliflower, or DNA metabolic enzymes such as calf thymus terminal deoxynucleotidyl transferase, human immunodeficiency virus type 1 reverse transcriptase and deoxyribonuclease 1. Kinetic analysis of the compound showed that pol. alpha was non-competitively inhibited with respect to both the DNA template and the nucleotide substrate. In this study, we demonstrated the structure-function relationship in the selective inhibition of pol. alpha by the glycolipid group.
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PMID:Galactosyldiacylglycerol, a mammalian DNA polymerase alpha-specific inhibitor from a sea alga, Petalonia bingbamiae. 1155 81

A deoxyribonuclease distinct from the previously isolated asparagus ribosome-inactivating proteins, possessing a molecular weight of 30 kDa and requiring a pH of 7.5 for optimum hydrolytic activity toward herring sperm DNA, was isolated from Asparagus officinalis seeds. The isolation procedure involved extraction with saline, (NH(4))(2)SO(4) precipitation, ion-exchange chromatography on DEAE-cellulose, affinity chromatography on Affi-gel blue gel, ion-exchange chromatography on CM-Sepharose, and FPLC gel filtration on Superdex 75. The doxyribonuclease was unadsorbed onto DEAE-cellulose and Affi-gel blue gel and adsorbed onto CM-Sepharose. It exhibited the novel N-terminal sequence, GIEVIKIREL. The deoxyribonuclease was purified to a specific activity of 1584 units/mg. It was devoid of ribonuclease, protease, and HIV-1 reverse transcriptase-inhibitory activities. However, it inhibited cell-free translation in a rabbit reticulocyte lysate system with an IC(50) of 20 microM. It exhibited antifungal activity toward Botrytis cinerea but not toward Fusarium oxysporum and Mycosphaerella arachidicola.
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PMID:Isolation of a novel deoxyribonuclease with antifungal activity from Asparagus officinalis seeds. 1170 87

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