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)

Full-length, single-stranded rabbit globin cDNA, synthesized by AMV reverse transcriptase, apparently contains a small double-stranded sequence (hairpin) at the 3' terminus. This cDNA can serve as template-primer for E. coli DNA polymerase I, which synthesizes a strand complementary to the cDNA and covalently bound to it. The loop connecting the two strands can be cut by S1 nuclease. Reassociation, hybridization, and restriction endonuclease studies, as well as electrophoretic analyses, indicate that the sequential actions of reverse transcriptase, DNA polymerase 1, and S1 nuclease generate full-length, double-stranded synthetic globin genes.
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PMID:Enzymatic in vitro synthesis of globin genes. 6 Jan 78

Two approaches have been explored for the synthesis of double-stranded DNA from single-stranded DNA template complementary to rabbit 9S globin mRNA (cDNA). (i) cDNA was elongated with dCMP or dTMP homopolymeric tracts using terminal deoxynucleotidyltransferase (EC 2.7.7.31; nucleosidetriphosphate:DNA deoxynucleotidylexotransferase). cDNA-dC, in the presence of an oligo(dG)10 primer, was an efficient template with either DNA polymerase of Escherichia coli (EC 2.7.7.7; deoxynucleosidetriphosphate:DNA deoxynucleotidyltransferase) or RNA-directed DNA polymerase of avian myeloblastosis virus. cDNA-dT [ with an oligo(dA)10 primer] functioned as template only with E. coli polymerase. (ii) cDNA, without homopolymeric tails, was also efficiently copied in the absence of oligonucleotide primer, by DNA polymerase of avian myeloblastosis virus or of E. coli. The product of the reaction consisted of long hairpin molecules which could be converted into DNA duplex (melting temperature, 93 degrees) by digestion with single-strand nuclease S1. The data indicate that a loop structure on the 3' end of cDNA allowed DNA synthesis to take place by a "self-priming" mechanism. Some of the double-stranded DNA synthesized corresponded to the entire sequence of the 9S mRNA template. The synthesis of full-length double-stranded DNA from mouse globin mRNA and immunoglobulin light chain mRNA is also discussed.
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PMID:Stepwise biosynthesis in vitro of globin genes from globin mRNA by DNA polymerase of avian myeloblastosis virus. 6 60

Using purified single-stranded ovalbumin complementary DNA (cDNAov) as a template for avian myeloblastosis (AM) virus reverse transcriptase, we have enzymatically synthesized a complete double-stranded cDNAov sequence. Our data suggests that many single-stranded cDNAov molecules contain short double-stranded sequences (hairpins) at their 3' termini capable of acting as primers for synthesis of complete double-stranded cDNAs. Optimum conditions for synthesis of the double-stranded cDNAov were found to be a high temperature (46 degrees) and a low salt concentration. Nevertheless, in all cases 40% of the initial single-stranded cDNAov molecules fail to prime for synthesis of a complementary double strand. Following synthesis, the second DNA strand is covalently linked to the first cDNAov strand as shown by analysis on alkaline sucrose gradients. The two strands have a high Tm on hydroxylapatite (89 degrees). These intact double-stranded cDNAov structures have a bouyant density in CsCl gradients of 1.700 g/cm3 and rapidly renature after heat denaturation with a C0t1/2 value of less than 2 X 10(-6) mol s liter(-1). All size classes of cDNAs, i.e. partial as well as complete transcripts of the mRNA, are capable of forming double-stranded structures. The closed loop of the double-stranded cDNAov could be opened with S1 nuclease. The denatured complementary strands of the cDNAov then renatured with the appropriate second order kinetics at a C0t1/2 value of 1.89 X 10(-3) mol s liter(-1). Using the enzyme terminal deoxyribonucleotidyltransferase to label to free 3'-terminal end of double-stranded [32P]cDNAov with 3H, we demonstrate a convenient procedure to study the site for restriction endonuclease cleavage within the ovalbumin gene.
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PMID:The ovalbumin gene. In vitro enzymatic synthesis and characterization. 6 59

Sequential reverse transcriptase, DNA polymerase, and S1 nuclease reactions can be employed to synthesize double-stranded DNA representing messenger RNA. Using reverse transcriptase products made from partially purified lysozyme, ovomucoid, and ovalbumin messengers from hen oviduct, we have characterized the Escherichia coli DNA polymerase I reaction. We have optimized for a high yield of full length second strands under conditions which require only a small amount of mRNA. The effects of several parameters (time, enzyme levels, salt concentration, monovalent cation, and temperature) on the length of products synthesized by DNA polymerase I have been investigated. Each has a significant influence on the proportion of products which are full length. Under our conditions the three reactions are efficient in synthesizing full length duplex DNA from partially purified mRNA fractions or from total poly(A)-containing RNA.
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PMID:Synthesis of double-stranded DNA complementary to lysozyme, ovomucoid, and ovalbumin mRNAs. Optimization for full length second strand synthesis by Escherichia coli DNA polymerase I. 7 87

Double-stranded protamine complementary DNA (cDNA) was synthesized from a protamine mRNA template via the single-stranded cDNA intermediate using avian myeloblastosis virus reverse transcriptase. Synthesis at 37 and 46 degrees C resulted in similar overall yields (greater than or equal to 18%), although the initial rate of synthesis was higher at 46 degrees C than at 37 degrees C. The DNA of the second strand of the double-stranded cDNA product was 84% resistant to prolonged digestion with excess S1 nuclease. The S1 nuclease resistant material ranged in size from 235 to 100 base pairs (bp) with an average length of 185 bp. Analysis of the products released from double-stranded protamine cDNA by depurination indicated that there were a number of cytosine-rich oligopyrimidine tracts in protamine mRNA, namely C4, C4U1, C5U1, C6U1, C6U4, and C7U1. On the basis of the amino acid sequences for rainbow trout protamines, C5U1, C6U1 and C7U1 must be located within the noncoding regions. Double-stranded protamine cDNA was cleaved at least once by the restriction endonucleases HaeIII and HhaI and in several places by HpaII. These restriction endonucleases cleave at sequences which have a high probability of occurring within the coding region of protamine mRNA, again based on the known amino acid sequences of the rainbow trout protamines.
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PMID:Double-stranded protamine cDNA: synthesis and characterization. 8 81

Hepatitis B virus DNA made fully double stranded by a virion DNA polymerase reaction could be converted from circular to linear molecules by heating in 10 mM NaCl at 77 degrees C or in 100 mM NaCl at 90 degrees C for 15 min. Heat-generated linear hepatitis B virus DNA was reannealed to circular molecules by incubating in higher salt concentrations. The identity of the molecular forms was established by their electrophoretic mobility and appearance in electron micrographs. Recircularization was blocked by reacting linear molecules with nuclease S1 or avian myeloblastosis virus reverse transcriptase. These results suggest that the heated linear DNA had single-stranded ends with complementary nucleotide sequences. It also suggests that a discontinuity or nick is present in each strand of the circular DNA molecule after the single-stranded region is made double stranded by the virion DNA polymerase reaction. The difference in contour length by electron microscopy of circular and linear molecules spread under aqueous conditions suggested that the discontinuities in the two strands were about 270 base pairs apart. The amount of nucleotide incorporated into the ends of heat-generated linear hepatitis B virus DNA by reverse transcriptase suggested that the single-stranded ends were about 305 bases in length. This fully double-stranded linear DNA was cleaved with EcoRI or HpaI restriction endonuclease. The sum of the two fragments generated by each totaled 3,510 base pairs, 310 base pairs greater than the contour length of circular hepatitis B virus DNA which represents a third estimate of the distance between the discontinuities in the two DNA strands of circular DNA. Restriction endonuclease cleavage also indicated that the ends of heated linear DNA which correspond to the discontinuities in the two strands of the circular DNA are at unique sites in the DNA with respect to the restriction sites.
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PMID:Hepatitis B viral DNA molecules have cohesive ends. 9 58

In this study, we have located the sites of transcription initiation and termination on a cloned fragment of ribosomal DNA from X. laevis, and have sequenced the surrounding nucleotides. As reported previously (Reeder, Sollner-Webb and Wahn, 1977), about 25% of the 40S rRNA precursor molecules isolated from oocytes have polyphosphate 5' termini and are therefore presumed to represent primary transcripts. These ends hybridize specifically to the 221 bp DNA fragment and removed the overhanging DNA region with S1 nuclease. In the other, we hybridized 40S RNA to a 221 bp fragment of ribosomal DNA. The nucleotides encoding the 5' end of the 40S RNA were located more precisely by two methods. In one, we hybridized 40S RNA to the 221 bp DNA fragment and removed the overhanging DNA region with S1 nuclease. In the other, we hybridized 40S RNA to a smaller DNA fragment and extended the recessed 3' terminus of the DNA using reverse transcriptase. The resultant DNA fragments were sized on sequencing gels. Both determinations map the 5' end of 40S RNA at the same site in the rDNA, about 2250 bp upstream from the Eco RI site in the 18S rRNA coding sequence. At this site we find a DNA sequence beginning AGGGGAAGAC.... which agrees with partial sequence data from the 5' end of polyphosphorylated and bulk 40S rRNA. Features of this region of the ribosomal DNA will be discussed in this paper. A 227 nucleotide region surrounding the initiation site was also sequenced from an independently derived clone and found to differ in only one nucleotide. In addition, a sequence is found about 1100 nucleotides upstream from the 5' end of the gene that has 90% homology to the sequence from nucleotides minus 125 to +4 in the initiation region. At the termination region, X. laevis ribosomal DNA has a single recognition site for the restriction enzyme Hind III in each repeating unit. Using the S1 nuclease technique, the 3' termini of both the 40S precursor and mature 28S rRNA are seen to map within this recognition sequence. The sequence surrounding the Hind III site has striking homology to termination sites recognized by other RNA polymerase classes. Sequences with similar features are also found upstream from the initiation site.
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PMID:The nucleotide sequence of the initiation and termination sites for ribosomal RNA transcription in X. laevis. 49 80

The nucleotide sequence of the 1206 bp fragment of Pseudomonas aeruginosa DNA coding for the recA gene has been determined. This structure was shown to contain an open reading frame corresponding to a protein with m.w. 36808 D highly homologous (70%) to the Escherichia coli recA protein. Homology on the DNA level is significantly lower (57%) due to the high G/C content characteristics of Pseudomonas DNA. Making use of S1 nuclease and reverse transcriptase it was shown that in P. aeruginosa and E. coli cells recAPA gene transcription starts from A or T unit. Unlike "-35" region, "-10" region is homologous to the consensus E. coli promoter sequence. Comparison of primary structures of the recAPA and recAEC proteins demonstrates that the recAPA protein is by 7 amino acid residues shorter and differs from recAEC at 108 positions. Homology is the lowest in the C-terminal part. Basing on the analysis of hybrid recAPA proteins with a modified C-terminal part, it may be suggested that C-terminus is nonessential for main activities of the recA protein.
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PMID:[Structure of the Pseudomonas aeruginosa recA gene]. 212 86

By screening of an Escherichia coli plasmidic library using antibodies against aspartyl-tRNA synthetase (AspRS) several clones were obtained containing aspS, the gene coding for AspRS. We report here the nucleotide sequence of aspS and the corresponding primary structure of the aspartyl-tRNA synthetase, a protein of 590 amino acid residues with a Mr 65,913, a value in close agreement with that observed for the purified protein. Primer extension analysis of the aspS mRNA using reverse transcriptase located its 5'-end at 94 nucleotides upstream of the translation initiation AUG; nuclease S1 analysis located the 3'-end at 126 nucleotides downstream of the stop codon UGA. Comparison of the DNA-derived protein sequence with known aminoacyl-tRNA sequences revealed important homologies with asparaginyl- and lysyl-tRNA synthetases from E.coli; more than 25% of their amino acid residues are identical, the homologies being distributed preferencially in the first part and the carboxy-terminal end of the molecule. Mutagenesis directed towards a consensus tetrapeptide (Gly-Leu-Asp-Arg) and the carboxy-terminal end showed that both domains could be implicated in catalysis as well as in ATP binding.
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PMID:Aspartyl-tRNA synthetase from Escherichia coli: cloning and characterisation of the gene, homologies of its translated amino acid sequence with asparaginyl- and lysyl-tRNA synthetases. 212 59

The nucleotide sequence of the human spumaretrovirus (HSRV) genome was determined. The 5' long terminal repeat region was analyzed by strong stop cDNA synthesis and S1 nuclease mapping. The length of the RU5 region was determined and found to be 346 nucleotides long. The 5' long terminal repeat is 1,123 base pairs long and is bound by an 18-base-pair primer-binding site complementary to the 3' end of mammalian lysine-1,2-specific tRNA. Open reading frames for gag and pol genes were identified. Surprisingly, the HSRV gag protein does not contain the cysteine motif of the nucleic acid-binding proteins found in and typical of all other retroviral gag proteins; instead the HSRV gag gene encodes a strongly basic protein reminiscent of those of hepatitis B virus and retrotransposons. The carboxy-terminal part of the HSRV gag gene products encodes a protease domain. The pol gene overlaps the gag gene and is postulated to be synthesized as a gag/pol precursor via translational frameshifting analogous to that of Rous sarcoma virus, with 7 nucleotides immediately upstream of the termination codons of gag conserved between the two viral genomes. The HSRV pol gene is 2,730 nucleotides long, and its deduced protein sequence is readily subdivided into three well-conserved domains, the reverse transcriptase, the RNase H, and the integrase. Although the degree of homology of the HSRV reverse transcriptase domain is highest to that of murine leukemia virus, the HSRV genomic organization is more similar to that of human and simian immunodeficiency viruses. The data justify classifying the spumaretroviruses as a third subfamily of Retroviridae.
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PMID:Analysis of the primary structure of the long terminal repeat and the gag and pol genes of the human spumaretrovirus. 245 55

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