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)

Bovine leukemia virus protease was purified to homogeneity and assayed by using murine leukemia virus Pr65gag, a polyprotein precursor of the viral core structural proteins, as the substrate. A chemical analysis of the protease, including an amino acid composition and NH2- and COOH-terminal amino acid sequence analysis, revealed that it has an Mr of 14,000 and is encoded by a segment of the viral RNA located between the gag gene and the putative reverse transcriptase gene. As expected from the nucleotide sequence data (Rice et al., Virology 142:357-377, 1985), the reading frame for the protease is different from both the gag and reverse transcriptase reading frames. The 5' end of the protease open reading frame extends 38 codons upstream from the codon for the NH2-terminal residue of the mature viral protease and overlaps the gag open reading frame by 7 codons. The 3' end of the protease open reading frame extends 26 codons beyond the codon for the COOH-terminal residue of the mature protease and overlaps 8 codons of the reverse transcriptase open reading frame. Several lines of evidence, such as protein mapping of the gag polyprotein precursor, the characteristic structure of the mRNA, and promotion of the synthesis of a gag polyprotein precursor by lysine tRNA in vitro, suggest that the protease could be translated by frameshift suppression of the gag termination codon. In vitro synthesized bovine leukemia virus gag-related polyproteins were cleaved by the protease into fragments which were the same size as the known components of bovine leukemia virus, suggesting that the specificity of cleavage catalyzed in vitro by the purified protease is the same as the specificity of cleavage found in the virus.
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PMID:Bovine leukemia virus protease: purification, chemical analysis, and in vitro processing of gag precursor polyproteins. 300 29

A number of nucleoside 5'-triphosphate analogs were tested with Escherichia coli DNA polymerase I and Klenow fragment of the enzyme, bacteriophage T4 DNA polymerase and calf thymus DNA polymerase alpha. It was shown that 3'-amino-2',3'-dideoxynucleoside 5'-triphosphates as well as a number of 3'-derivatives of dTTP(3'NH2) are able to terminate DNA synthesis catalyzed by each enzyme if the reaction is performed in the absence of natural substrates. ddNTP and dNTP(3'F) were found to be inactive with DNA polymerase alpha only, but araNTP(3'NH2) was inactive with E. coli DNA polymerase I. dTTP(3'N3), dGTP(3'N'3), dCTP(3'N3), araNTP(3'N3) and (alpha-thio)dTTP(3'F) were unable to inhibit any of the above-mentioned DNA polymerases, in contrast to reverse transcriptase, accessible to the most nucleotide analogs tested.
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PMID:Nucleoside 5'-triphosphates with modified sugars as substrates for DNA polymerases. 302 Dec 25

Hemoglobin Long Island has two separate amino acid abnormalities of beta-globin structure: an extension of the NH2 terminus by a methionine residue and a histidine-to-proline substitution at the normal second position. The NH2-terminal methionine residue, the translation product of an AUG initiation codon, is present only transiently in nascent proteins. Because of the general biological implications of this abnormality, we investigated the nature of the genetic defect of this mutant. We determined the sequence of the relevant portion of the beta-globin mRNA by means of dideoxynucleotide chain termination of the complementary DNA (cDNA) in which an oligonucleotide complementary to codons 10-17 was used as a primer for reverse transcriptase. A histidine-to-proline substitution was confirmed in the mutant mRNA by identifying an adenine-to-cytosine transversion in the second codon. However, we were unable to find any other abnormality at either the AUG initiation codon or in the 56 bases upstream from the adenine-to-cytosine transversion (encompassing most of the 5' untranslated region of the mutant beta-globin mRNA). Thus, it appears that this single lesion probably interferes with the poorly understood methionine-cleaving mechanism that modulates most of prokaryotic and eukaryotic proteins.
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PMID:Hemoglobin Long Island is caused by a single mutation (adenine to cytosine) resulting in a failure to cleave amino-terminal methionine. 345 55

We have purified from Moloney murine leukemia virus (Mo-MuLV) a protease that has the capacity of accurately cleaving the polyprotein precursor Pr65gag into the mature viral structural proteins. Both the NH2- and COOH-terminal amino acid sequences have been determined and aligned with the amino acid sequence deduced from the DNA sequence of Mo-MuLV by other workers. The results show that: (i) the protease is located at the 5' end of the pol gene, and the first four amino acids are overlapped with the 3' end of the gag gene; (ii) the fifth amino acid residue is glutamine, which is inserted by suppression of the UAG termination codon at the gag-pol junction; and (iii) the protease is composed of 125 amino acids with calculated Mr = 13,315, and the COOH terminus of the protease is adjacent to the NH2 terminus of reverse transcriptase. The map order of the gag-pol gene is proposed to be 5'-p15-p12-p30-p10-protease-reverse transcriptase-endonuclease-3'.
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PMID:Murine leukemia virus protease is encoded by the gag-pol gene and is synthesized through suppression of an amber termination codon. 388 15

The NH2-terminal amino acid sequence of the pp32 DNA binding protein has been determined, thus establishing its precise coding region in the polymerase gene of Rous sarcoma virus. Specific mutations were constructed in molecularly cloned Prague A DNA near the NH2- and COOH-termini of pp32 and the effects were assayed by transfection on chick embryo fibroblasts. Out-of-frame deletions at both sites and an in-frame deletion near the NH2 terminus rendered the DNA noninfectious and transformation negative. Single point mutations near the NH2 terminus reduced the transfection efficiency and the rate of virus replication. Biochemical studies indicated that the RNA-directed DNA polymerase and RNase H activities of the mutant viruses were not affected but the processing of the viral beta polypeptide was altered.
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PMID:Requirement of the avian retrovirus pp32 DNA binding protein domain for replication. 609 34

Pancreatic poly(A) RNA isolated from the channel catfish (Ictalurus punctatus) was enriched for sequences corresponding to somatostatin mRNA on isokinetic sucrose gradients. Double-stranded cDNA was synthesized and inserted into the Pst I site pBR322 via the poly(dG) . poly(dC) tailing method. Escherichia coli was transformed with this DNA, and colonies containing somatostatin cDNA sequences were identified by hybridization using a primer-extended somatostatin cDNA. The somatostatin cDNA was obtained by extending a 5'-labeled undecanucleotide primer complementary to somatostatin mRNA with reverse transcriptase using catfish poly(A) RNA as a template. The synthetic primer d(T-T-C-C-A-G-A-A-G-A-A) was deduced from the amino acid sequence Phe-Phe-Trp-Lys present in somatostatin-14. Twenty positive colonies were obtained upon screening 2000 transformants. The restriction maps of the plasmid DNA obtained from the positive colonies were examined. Nineteen of these plasmids contained sequences corresponding to somatostatin-14, while one contained a sequence corresponding to somatostatin-22. The nucleotide sequence of pancreatic somatostatin-14 is reported here. The cDNA contains 350 nucleotides in the 3' noncoding region, 345 nucleotides in the coding region, and 104 nucleotides in the 5'-untranslated region. The mRNA codes for a precursor to somatostatin which is 114 amino acids in length. The preprosomatostatin has a sequence of hydrophobic amino acids at the NH2 terminus, followed by a connecting peptide of approximately 75 amino acids. The sequence Arg-Lys precedes somatostatin-14. Analysis of genomic DNA from the channel catfish reveals that somatostatin-14 and somatostatin-22 are present on different restriction fragments.
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PMID:The structure of cloned DNA complementary to catfish pancreatic somatostatin-14 messenger RNA. 617 39

We have previously studied the topographical and functional implications of the recognition of primer tRNATrp by avian retrovirus reverse transcriptase. Here we have presented evidence that the enzyme is able to deacylate beef liver Trp-tRNATrp, provided that 35-S viral RNA is present in the incubation mixture. No effect of dNTPs on this activity was observed. The extensive modification of tRNATrp with acrylonitrile led to a marked loss of priming activity by tRNATrp if the annealing between primer and template was performed at 37 degrees C, while the annealing of cyanoethylated tRNA with the viral genome at 75 degrees C gave almost normal levels of cDNA synthesis. We have also studied the priming behaviour of tRNATrp, modified by incorporation of various analogs of adenosine. Only tRNATrp-2'dA was active in cDNA initiation; 3'dA, 3'NH2-3'dA, and primer tRNA with formycin in the 3' end showed low or nonexistent priming activity.
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PMID:Involvement of tRNA in retrovirus expression: biological implications of reverse transcriptase-primer tRNA interactions. 618 58

mRNA for bacteriorhodopsin from Halobacterium halobium has been partially purified. By using this mRNA as template in the presence of reverse transcriptase RNA-dependent DNA nucleotidyltransferase and a 5'-[32P] synthetic oligodeoxyribonucleotide corresponding to amino acids 9-12 of bacteriorhodopsin as primer, we have isolated the major 5'-[32P]cDNA product, approximately 80 nucleotides long, and determined its sequence. Based on the cDNA sequence, the 5'-proximal sequence of bacteriorhodopsin mRNA is G-C-A-U-G-U-U-G-G-A-G-U-U-A-U-U-G-C-C-A-A-C-A-G-C-A-G-U-G-G-A-G-G-G-G-G-U-A-U-C -G-C-A-G-G-C-C-C-A-G-A-U-C-A-C-C-G-G-A-C-G-U-C-C-G. This includes the expected sequence for amino acids 1-8 and shows that bacteriorhodopsin is synthesized as a precursor that is at least 13 amino acids longer (Met-Leu-Glu-Leu-Leu-Pro-Thr-Ala-Val-Glu-Gly-Val-Ser) at the NH2 terminus. Agarose/urea gel electrophoresis of the partially purified mRNA showed several bands; of these, a major one hybridized with 5'-[32P]cDNA. These results suggest that the bacteriorhodopsin mRNA in the partially purified preparation is homogeneous in size and that it constitutes a substantial portion of the RNA preparation subjected to electrophoresis.
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PMID:Bacteriorhodopsin: partial sequence of mRNA provides amino acid sequence in the precursor region. 694 48

We have used an oligodeoxynucleotide of defined sequence to detect and quantitate proenkephalin mRNA in the poly(A)-containing fraction of RNA from bovine adrenal medullas. The decahexamer 5'-d(G-G-T-A-G-T-C-C-A-T-C-C-A-C-C-A)-3' was synthesized to be complementary to the codons specifying the amino acid sequence NH2-Trp-Trp-Met-Asp-Tyr-Gln-COOH. This stretch of amino acids occurs in peptide I, one of the intermediates in the biosynthetic pathway of the enkephalins in bovine adrenal medulla. This pathway starts with a precursor (proenkephalin) of about 45 kilodaltons [Stern, A. S., Jones, B. N., Shively, J. E., Stein, S. & Udenfriend, S. (1981) Proc. Natl. Acad. Sci. USA 78, 1962-1966]. The decahexamer hybridized to adrenal poly(A)+RNA and was extended into cDNA with reverse transcriptase (RNA-dependent DNA nucleotidyltransferase). Five main discrete products ranging in size from 115 to 168 nucleotides were observed. The sequences of these extensions were found to be identical over the approximately 70 nucleotides sequenced from their 5' termini and corresponded exactly to the sequence expected from the amino acid sequence of peptide I. These cDNAs and the decahexamer itself hybridized to an adrenal medullary poly(A)+RNA species of about 1500 nucleotides, sufficient in size to code for the proposed proenkephalin. At saturation, approximately 2 fmol of the decahexamer were bound per microgram of mRNA; thus, the proenkephalin mRNA represents about 0.1% of the total poly(A)+RNA population in the tissue.
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PMID:Detection and partial characterization of proenkephalin mRNA. 694 86

Active, recombinant p68 reverse transcriptase (RT) from human immunodeficiency virus type 2 (HIV-2), with an NH2-terminal extension containing a hexahistidine sequence was isolated from extracts of Escherichia coli by immobilized metal affinity chromatography. Treatment of the purified p68/p68 homodimer of HIV-2 RT with recombinant HIV-2 protease generates stable, active heterodimer (p68/p58) that is resistant to further hydrolysis. Analysis of this p68/p58 HIV-2 RT heterodimer revealed that while one subunit is intact p68, the p58 subunit is COOH-terminally truncated by cleavage, not at Phe440 as is seen in processing of the p66/p66 HIV-1 RT homodimer by HIV-1 protease, but at Met484. The expected COOH-terminal p10 fragment resulting from hydrolysis of p68 at Met484 is not released intact, but undergoes further cleavage at Asn494, Met503, and Tyr532. Processing of p68/p68 HIV-2 RT with the HIV-1 protease led to cleavage of the Phe440-Tyr441 bond, exactly as is seen with p66/p66 HIV-1 RT, to give the analogous p53 subunit. Studies of a peptide substrate modeled after residues 437-444 in HIV-2 RT showed that while the HIV-1 protease was able to cleave the Phe440 bond, this bond was resistant to cleavage by the HIV-2 enzyme. Our findings provide a rationale for the previous observation that the RT heterodimer isolated from HIV-2 lysates is larger than that from HIV-1. We conclude that the p68/p58 HIV-2 RT heterodimer, containing the Met484 truncated p58 subunit, is a biologically relevant form of the enzyme in vivo.
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PMID:The differential processing of homodimers of reverse transcriptases from human immunodeficiency viruses type 1 and 2 is a consequence of the distinct specificities of the viral proteases. 753 31

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