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)

Two DNA strand transfer reactions occur during retroviral reverse transcription. The mechanism of the first, minus strand strong-stop DNA, transfer has been studied in vitro with human immunodeficiency virus 1 reverse transcriptase (HIV-1 RT) and a model template-primer system derived from the HIV-1 genome. The results reveal that HIV-1 RT alone can catalyze DNA strand transfer reactions. Two kinetically distinct ribonuclease (RNase) H activities associated with HIV-1 RT are required for removal of RNA fragments annealed to the nascent DNA strand. Examination of the binding of DNA.RNA duplex and single-stranded RNA to HIV-1 RT during strand transfer supports a model where the enzyme accommodates both the acceptor RNA template and the nascent DNA strand before the transfer event is completed. The polymerase activity incorporated additional bases beyond the 5' end of the RNA template, resulting in a base misincorporation upon DNA strand transfer. Such a process occurring in vivo during retroviral homologous recombination could contribute to the hypermutability of the HIV-1 genome.
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PMID:Mechanism of DNA strand transfer reactions catalyzed by HIV-1 reverse transcriptase. 127 6

We have examined the RNA-dependent and DNA-dependent polymerase and ribonuclease H catalytic activities of human immunodeficiency virus reverse transcriptase using rapid transient kinetic methods with defined synthetic 25/45-mer DNA/RNA and DNA/DNA primer/templates. The Kd value for interaction of the enzyme with duplex DNA was 4.7 nM, and the value for RNA/DNA heteroduplex was of similar magnitude. A pre-steady state burst of nucleoside triphosphate incorporation was observed for both DNA and RNA templates. Analysis of the dATP concentration dependence of the burst rate provided Kd values for dATP of 4 and 14 microM and maximum rates of single nucleotide incorporation, kpol, of 33 and 74 s-1, for DNA and RNA templates, respectively. Subsequent turnovers were limited by the rate of dissociation of the primer/template from the enzyme at rates of 0.18 and 0.06 s-1 for duplex DNA and RNA/DNA heteroduplex, respectively. Analysis of rates of DNA polymerization and RNA cleavage using the RNA template revealed that the two activities are independent of one another. The polymerization rate (4-70 s-1) was dependent on dATP concentration, whereas the RNA cleavage occurred at a constant rate of 10 s-1 over the 100-fold dATP concentration range (2-200 microM). Examination of the RNA cleavage products resulting from a single turnover indicates that the polymerase and ribonuclease domains of the enzyme are separated by a distance corresponding to 19 bases of RNA/DNA heteroduplex, consistent with the recently published crystal structure (Kohlstaedt, L. A., Wang, J., Friedman, J., Rice, P. A., and Steitz, T. A. (1992) Science 256, 1783-1790). Analysis of the kinetics of processive synthesis suggested that the initial binding of dNTP leads to a faster rate of dissociation of DNA from the enzyme. Further investigation supported a two-step dNTP binding mechanism with the formation of an initial E.DNA.dNTP complex followed by a more stable E'.DNA.dNTP complex. The Kd values for incorporation of incorrect nucleoside triphosphates opposite a DNA template thymidine were 1010 microM for dGTP, 1240 microM for dCTP, and 840 microM for dTTP. The corresponding maximum kpol rates were 4.8 s-1 for dGTP, 0.52 s-1 for dCTP, and 0.41 s-1 for dTTP. These values provide fidelity estimates of 1740 for discrimination against dGTP, 19,700 for dCTP, and 16,900 for dTTP misincorporations at this site.
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PMID:Mechanism and fidelity of HIV reverse transcriptase. 128 79

Based upon our previous report indicating the presence of retrovirus-like particles in human gastric cancer cells, we analyzed the putative endogenous reverse transcriptase activity these particles should have. To evaluate the specificity of reverse transcription over that displayed by normal cellular DNA polymerases, the following discriminatory criteria were used: 1) resistance to high concentrations of Actinomycin D; 2) sensitivity to preincubation with ribonuclease A; 3) behavior in cesium sulfate isopycnic gradients and 4) size-shifting of putative template-product complexes after RNase exposure in agarose gel electrophoresis. We report a significant endogenous reverse transcriptase activity associated with membrane-encapsidated particles from terminally-illed patients but not in normal counterparts. Although these structures closely resemble retro viruses, a new model is proposed to explain our findings.
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PMID:Further characterization of RNA-dependent-DNA polymerase activity in human gastric cancer. 128 60

Early events in the retroviral replication cycle include the conversion of viral genomic RNA into linear double-stranded DNA. This process is mediated by the reverse transcriptase (RT), a multifunctional enzyme that possesses RNA-dependent DNA polymerase, DNA-dependent DNA polymerase, and RNase H activities. In the course of studies of a recombinant RT of human immunodeficiency virus type 1 (HIV-1), we observed an additional, unexpected activity of the enzyme. The purified RT catalyzes a specific cleavage in HIV-1 RNA hybridized to tRNALys, the primer for HIV-1 reverse transcription. The cleavage at the primer binding site (PBS) of HIV RNA is dependent on the double-stranded structure of the HIV RNA-tRNALys complex. This RNase activity appears to be distinct from the RNase H activity of HIV-1 RT, as the substrate specificity and the products of the two activities are different. Moreover, Escherichia coli RNase H and avian myeloblastosis virus RT are unable to cleave the HIV RNA-tRNALys complex. We refer to this unusual activity as RNase D. Two lines of evidence indicate that the specific RNase D activity is an integral part of recombinant HIV RT. The specific RNase D activity comigrates with the other RT activities, DNA polymerase, and RNase H upon filtration on a Superose 6 gel column or chromatography on a phosphocellulose column. Moreover, three recombinant HIV-1 RT preparations expressed and purified in different laboratories by various procedures exhibit RNase D activity. Sequence analysis indicated that RNase D activity cleaves the substrate HIV-1 RNA-tRNALys at two distinct sites within the PBS sequence 5'-UGGCGCCCGA decreases ACAG decreases GGAC-3'. The sequence specificity of RNase D activity suggests that it might be involved in two stages during the reverse transcription process: displacement of the PBS to enable copying of tRNALys sequences into plus-strand DNA or to facilitate the second template switch, which was postulated to occur at the PBS sequence.
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PMID:Double-stranded RNA-dependent RNase activity associated with human immunodeficiency virus type 1 reverse transcriptase. 137 Oct 14

Intact RNA from various rat organs was isolated by an efficient and rapid method. This method of RNA isolation is a modification of an earlier method that uses guanidinium isothiocynate followed by extraction in the presence of sarcosyl, acetate and phenol. The RNA obtained by the method reported here was comparable with the RNA prepared by the CsCl2 ultracentrifugation method and the commercially available kit based on published methods. The quality of RNA was found suitable for Northern blotting analysis, RNase protection assays and reverse transcriptase-polymerase chain reaction (RT-PCR). Since reverse transcriptase is active in the buffer used for Taq DNA polymerase, only one reaction needs to be set up. We also found that the use of aurintricarboxylic acid in the RNA preparation prevents the degradation of RNA during storage. Expression of low density lipoprotein (LDL) receptor, apolipoprotein (apo) AI, AII and AIV mRNAs were quantified in various rat organs. Our results indicated that rat LDL receptor mRNA is expressed in several organs whereas apoAI and AIV mRNAs were expressed mainly in the liver and intestine. However, apo AII mRNA is expressed mainly in the liver. Unlike mice and some species of monkeys, in the rat apoAI mRNA is expressed at 5-6 times higher levels in the intestine compared to liver. Apo AIV mRNA abundance was also found to be several fold higher in intestine compared to hepatic tissues. We present here, for the first time, data on the absolute amounts of LDL receptor, apoAI, AII and AIV mRNA in various rat organs which were quantified by a novel RNase protection/solution hybridization assay.
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PMID:Expression of low density lipoprotein receptor, apolipoprotein AI, AII and AIV in various rat organs utilizing an efficient and rapid method for RNA isolation. 137 76

We describe a sensitive ribonuclease protection assay that we have used to measure the amount of interferon-beta RNA directly in lysates of human cells. Cell lysates were prepared in concentrated guanidine thiocyanate. Molecular hybridization with RNA probes was then performed directly in crude cell lysate, and native RNase-resistant duplexes were characterized by polyacrylamide gel electrophoresis. Comparison of interferon-beta RNA abundance by quantitative solution hybridization and lysate RNase protection showed that lysate RNase protection was highly quantitative. A high degree of reproducibility of the method was determined with a glyceraldehyde-3-phosphate dehydrogenase "housekeeping" gene probe. Sensitivity of lysate RNase protection was determined using both induced interferon-beta RNA and synthetic human endogenous reverse transcriptase RNA as target. The lysate RNase protection method was able to measure as few as 10(4)-10(5) RNA molecules.
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PMID:RNA abundance measured by a lysate RNase protection assay. 138 Nov 96

Upon reverse transcription and cloning manipulations with virion RNAs of several plant viruses, namely beet yellows virus, brome mosaic virus, and potato virus X, we came across a significant background synthesis of cDNA on the virion RNA template in vitro independent of exogenous primers added. When tested with beet yellow virus RNA template, several commercial preparations of avian myeloblastosis virus (AMV) reverse transcriptase showed the background activity monitored by the [alpha-32P]dNTP incorporation in vitro, while the enzyme from murine moloney leukemia virus (MMLV) was found strictly exogenous-primer-dependent. To detect possible nucleic acid contaminations in reverse transcriptase, the enzyme preparations from several commercial sources were incubated with [gamma-32P]ATP and polynucleotide kinase. The labeled material from AMV reverse transcriptase preparations comigrated with a tRNA marker in polyacrylamide gels and was found to be RNase-sensitive. The MMLV reverse transcriptase preparations were free from such a contamination. These results indicate that the exogenous-primer-independent cDNA synthesis by some AMV reverse transcriptases could be due to a contaminating tRNA (or its low-molecular-weight degradation products) serving as an endogenous primer.
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PMID:Exogenous primer-independent cDNA synthesis with commercial reverse transcriptase preparations on plant virus RNA templates. 138 74

An in situ gel assay was applied to the study of double stranded RNA dependent RNase activity associated with reverse transcriptase (RT) of HIV-1 and murine leukemia virus. Polyacrylamide gels containing [32P] RNA/RNA substrate were used for electrophoresis of proteins under denaturing conditions. The proteins were renatured and in situ enzymatic degradation of 32P-RNA/RNA was followed. E. coli RNaseIII, but not E. coli RNaseH, was active in this in situ gel assay, indicating specificity of the assay to RNA/RNA dependent nucleases. Analysis of purified preparations of HIV-1 RT p66/p51 expressed in E. coli demonstrated an RNA/RNA dependent RNase activity comigrating with the large subunit (p66) of the enzyme. In addition, this activity of the RT was often accompanied by a contaminating RNA/RNA dependent RNase, with a molecular weight approximately 30,000 dalton identical to that of E. coli RNaseIII. As the p51 small subunit of HIV-1 RT and a mutant of RT p66/p51, at Glutamic acid #478, did not exhibit RNA/RNA dependent RNase activity, at least part of the active site of the RNA/RNA dependent RNase activity appeared to reside at the carboxy end of the molecule. As these RT proteins are also deficient of RNaseH, our results suggest overlapping or identical catalytic sites for degradation of the substrates RNA/DNA and RNA/RNA.
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PMID:Characterization of the double stranded RNA dependent RNase activity associated with recombinant reverse transcriptases. 138 38

Tissue distribution and potential alternative splicing of insulin-like growth factor I (IGF-I) messenger RNA were studied using reverse transcriptase-polymerase chain reaction (RT-PCR) on RNA from several tissues at various stages of the life cycle of coho salmon (Oncorhynchus kisutch). DNA sequence analysis of RT-PCR products revealed three IGF-I mRNA transcripts, designated Ea-1, Ea-2, and Ea-3, which code for three distinct prohormones, IGF-IA-1, IGF-IA-2, and IGF-IA-3, respectively. The E-domain of proIGF-IA-1 is 35 amino acids long and shares 77% sequence identity with the E-domain of human proIGF-IA, which is also 35 amino acids long. The proIGF-IA-2 and proIGF-IA-3 E-domains are homologous to the proIGF-IA-1 E-domain but contain 27 and 39 amino acid inserts, respectively, between Lys86 and Glu87. In the human IGF-I gene Lys86 is coded by exon 4 and Glu87 is coded by exon 6. This suggests that Ea-2 and Ea-3 transcripts may be the result of alternative splicing during pre-mRNA processing. All three transcripts were readily detectable using a solution hybridization/RNase protection assay. Furthermore, RT-PCR and DNA sequencing analysis indicate the presence of three IGF-I prohormones in another member of the Salmonidae family, the Atlantic salmon (Salmo salar). An analysis of IGF-I and -II E-domains from several vertebrates suggests that certain chemical and physical properties of the molecule are well conserved despite wide variations in primary structure. Ea-1, Ea-2, and Ea-3 transcripts were found in whole embryos, and liver, muscle, and brain of juvenile and adult salmon. At least one IGF-I transcript was found in heart, kidney, testes, ovary, adipose tissue, and spleen of juvenile salmon. These results indicate that IGF-I is expressed during embryonic development of fish, and that most tissues are capable of IGF-I mRNA production. These data also indicate that pre-mRNA transcripts can be alternatively spliced to yield at least three prohormones.
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PMID:Nucleotide sequence and tissue distribution of three insulin-like growth factor I prohormones in salmon. 140 98

Differentiation choices in the haemopoietic and nervous systems are controlled in part by instructive factors. The cholinergic differentiation factor (CDF, also known as leukaemia inhibitory factor, LIF) affects the development of cultured cells from both systems. To understand the role of CDF/LIF during normal development in vivo, we have begun to localize its mRNA in the late fetal and postnatal rat. Application of reverse transcriptase-polymerase chain reaction and RNase protection methods reveals that CDF/LIF mRNA levels are developmentally modulated in both haemopoietic and neural tissues. A target tissue of cholinergic sympathetic neurons, the footpads that contain the sweat glands, express high levels of this mRNA (relative to mRNA for actin and beta 2-microglobulin). Levels in targets of noradrenergic neurons are lower, but do undergo significant changes during development. Signals are also detected in selective regions of the adult brain, and in embryonic skeletal muscle. This finding in muscle may be significant for motor neurons, because CDF/LIF is a trophic factor for these neurons in culture. Embryonic liver, neonatal thymus and postnatal spleen express CDF/LIF mRNA, and expression in gut is the highest of all tissues examined. The selective tissue distribution and developmental modulation of CDF/LIF mRNA expression support a role for this factor in the normal development of several organ systems.
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PMID:Further studies of the distribution of CDF/LIF mRNA. 142 9

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