EC:2.7.7.7 - FACTA Search

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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of tryptophan tRNA (tRNATrp) to initiate reverse transcription of the 70S RNA of avian RNA tumor viruses suggested that the reverse transcriptase (RNA-dependent DNA polymerase; deoxynucleosidetriphosphate: DNA deoxynucleotidyltransferase; EC 2.7.7.7) might have a specific binding site for the tRNA. A complex of tRNATrp and the avian myeloblastosis virus reverse transcriptase has been demonstrated using chromatography on Sephadex G-100 columns. Of all the chicken tRNAs, only tRNATrp and a tRNA4Met bind to the enzyme with high enough affinity to be selected from a mixture of the chicken cell tRNAs. The ability of tRNATrp to change the sedimentation rate of the enzyme indicates that tRNATrp is not binding to a contaminant in the enzyme preparation. Treatment of the enzyme with monospecific antibody to reverse transcriptase prevented binding of tRNA as well as inhibited the DNA polymerase activity of the enzyme. The ability of reverse transcriptase to utilize tRNATrp aa a primer for DNA synthesis, therefore, appears to involve a highly specific site on the enzyme.
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PMID:Specific binding of tryptophan transfer RNA to avian myeloblastosis virus RNA-dependent DNA polymerase (reverse transcriptase). 5 56

The RNA-directed DNA polymerase (deoxynucleosidetriphosphate:DNA deoxynucleotidyltransferase EC 2.7.7.7) of avian oncornavirus requires a tryptophan tRNA (tRNATrp) primer molecule located close to the 5' end of the viral RNA genome for the initiation of DNA synthesis in vitro. In this communication we demonstrate that the DNA product, transcribed from avian myeloblastosis virus (AMV) 35S RNA containing only tRNATrp as primer, is located also at the 5' end of the RNA genome. More importantly, we demonstrate that these 5' terminal DNA transcripts contain nucleotide sequences complementary to the 3' end of the genome. We have interpreted these results to mean that the genome. We have interpreted these results to mean that the 3' and 5' termini of the AMV 35S RNA genome become juxtaposed with each other either before or immediately after DNA synthesis has begun. These results are discussed in regard to the mechanism for synthesis of the circular forms of oncornavirus proviral DNA.
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PMID:Evidence for circularization of the avian oncornavirus RNA genome during proviral DNA synthesis from studies of reverse transcription in vitro. 5 20

All prokaryotic and eukaryotic thioredoxins contain a conserved tryptophan residue, exposed at the active site disulfide/dithiol. The role of this W31 in Escherichia coli thioredoxin (Trx) was studied by site-directed mutagenesis. Four mutant Trx with W31Y, W31F, W31H, and W31A replacements were characterized. Very low tryptophan fluorescence emission from the remaining W28 was observed in all mutant Trx; reduction resulted in large, but variable increases (up to 11-fold) of fluorescence, to levels higher than in native or denatured wild-type Trx, demonstrating a previously postulated change involving W28. All W31 mutant Trx were good substrates for E. coli thioredoxin reductase. Compared with wild type, the apparent Km values were increased less than 2-fold for the W31A, W31H, and W31F Trx and the W31Y Trx showed even slightly higher catalytic efficiency (kcat/Km value). Functions of reduced Trx with ribonucleotide reductase and in reduction of insulin disulfides were more strongly influenced by the W31 replacements, in particular at low pH for A and H residues. T7 DNA polymerase activity generated by T7 gene 5 protein and reduced Trx was lowered by large factors for W31Y, W31A, or W31H compared with W31F or the wild-type protein. The in vivo function of Trx was studied by using pUC118-trxA expression in an E. coli trxA- background. The trxA genes with W31Y and W31F substitutions restored, fully and partly, the methionine sulfoxide utilization of a trxA- metE- test strain; W31A and W31H mutations resulted in no growth. Propagation of M13 was moderately impeded by W31Y and W31F or severely by W31A and W31H replacements. Growth of a phage T3/7 hybrid was possible only with the W31Y and W31F substitutions reflecting the in vitro results for T7 DNA polymerase.
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PMID:Substitution of the conserved tryptophan 31 in Escherichia coli thioredoxin by site-directed mutagenesis and structure-function analysis. 199 1

The rat mitochondrial single strand DNA binding protein (SSB) P16 was purified to apparent homogeneity by elution from single strand DNA agarose with ethidium bromide. Each monomer of P16 contains two tryptophan residues, and the intrinsic fluorescence from these residues is quenched upon binding to single strand polynucleotides. From fluorescence quench titrations of ligand to fixed amounts of DNA lattice, a binding site size of 8 or 9 nucleotides per P16 monomer was found. Measurement of the affinity of P16 for isolated sites by titration with either oligo(dT)8 or 5'-dephosphorylated oligo(dT)8 indicated values on the order of 10(7) M-1. P16 exhibited a binding preference for single strand DNA, poly(dT), and poly(dC) in comparison to double strand DNA, poly(U), or poly[d(A-T)]. Although it was not possible to show that P16 destabilizes double helical DNA or even poly[d(A-T)], binding of P16 does inhibit the process of renaturation as shown by inhibition of duplex formation between poly(dA) and poly(dT). The binding of saturating amounts of P16 to single strand poly(dT).oligo(dA)50 template-primers enhanced approximately 10-fold the activity of both the homologous mitochondrial DNA polymerase and the Escherichia coli DNA polymerase I Klenow fragment. However, the mitochondrial DNA primase was nearly completely inhibited by the saturation of the poly(dT) template with P16. Amino-terminal sequence analysis of P16 and a protease-insensitive, DNA binding domain (Mr approximately 6000) revealed that the DNA binding domain residues, at least in part, in the amino-terminal third of the P16 molecule. Furthermore, the amino-terminal sequence was found to be strikingly similar to that of the Xenopus laevis mtSSB-1 and to a lesser extent similar to E. coli SSB and E. coli F sex factor SSB.
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PMID:Structural and functional studies of the rat mitochondrial single strand DNA binding protein P16. 222 14

A region upstream from the origin of replication in ColE1-type plasmids has been shown to be necessary for replication. Two RNA transcripts are produced from this area, RNA II, which yields the primer for DNA polymerase initiation at the origin and RNA I, which is complementary to the 5' end of RNA II and acts to inhibit primer formation. We have constructed plasmids which do not possess the nucleotide sequence for RNA I, or the normal 5' terminus and promoter of RNA II. The RNA II analog, in these plasmids, is believed to be synthesized by the readthrough transcription of the upstream trimethoprim-resistant dihydrofolate reductase (DHFR) gene at a level comparable to that produced by the tryptophan promoter. These plasmids have a copy number of about tenfold higher than that of pBR322 during logarithmic growth and are compatible with other ColE1-type plasmids. These plasmids are stably maintained in several strains when selective pressure is present and the plasmids are stably maintained during exponential growth in W3110 strains without selective pressure. In all strains examined, the dimeric form of the plasmid was lost from cells much more rapidly than those containing the monomeric form.
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PMID:Construction and characterization of pBR322-derived plasmids with deletions of the RNA I region. 242 15

We have purified and characterized a single-stranded DNA binding protein (N4 SSB) induced after coliphage N4 infection. It has a monomeric molecular weight of 31,000 and contains 10 tyrosine and 1-2 tryptophan amino acid residues. Its fluorescence spectrum is dominated by the tyrosine residues, and their fluorescence is quenched when the protein binds single-stranded DNA. Fluorescence quenching was used as an assay to quantitate binding of the protein to single-stranded nucleotides. The N4 single-stranded DNA binding protein binds cooperatively to single-stranded nucleic acids and binds single-stranded DNA more tightly than RNA. The binding involves displacement of cations from the DNA and anions from the protein. The apparent binding affinity is very salt-dependent, decreasing as much as 1,000-fold for a 10-fold increase in NaCl concentration. The degree of cooperativity (omega) is relatively independent of salt concentration. At 37 degrees C in 0.22 M NaCl, the protein has an intrinsic binding constant for M13 viral DNA of 3.8 x 10(4) M-1, a cooperativity factor omega of 300, and binding site size of 11 nucleotides per monomer. The protein lowers the melting point of poly(dA.dT).poly(dA-dT) by greater than 60 degrees C but cannot lower the melting transition or assist in the renaturation of natural DNA. N4 single-stranded DNA binding protein enhances the rate of DNA synthesis catalyzed by the N4 DNA polymerase by increasing the processivity of the N4 DNA polymerase and melting out hairpin structures that block polymerization.
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PMID:Purification and characterization of the coliphage N4-coded single-stranded DNA binding protein. 266 66

Terminal deoxynucleotidyl transferase (EC 2.7.7.31) is a eucaryotic DNA polymerase that does not require a template. The tryptophan environments in calf thymus terminal transferase were investigated by fluorescence. The heterogeneous emission from this multitryptophan enzyme was separated by time-resolved emission spectroscopy. Nanosecond fluorescence decays at 296-nm excitation and various emission wavelengths were deconvolved by global analysis, assuming that the lifetimes but not the relative weighting factors were independent of emission wavelength. The data were fit to three exponentials of lifetimes tau 1 = 1.4 ns, tau 2 = 4.5 ns, and tau 3 = 7.7 ns. The corresponding decay-associated emission spectra of the three components had maxima at about 328, 335, and 345 nm. The accessibility of individual tryptophan environments to polar and nonpolar fluorescence quenchers was examined in steady-state and time-resolved experiments. In the presence of iodide and acrylamide, the steady-state emission spectra shift to the blue. However, at low quencher concentrations, the emission from the 7.7-ns component (maximum 345 nm) is hardly affected, suggesting that this hydrophilic tryptophan environment is buried within the protein. On the other hand, the red shift in the steady-state emission spectrum in the presence of trichloroethanol indicates that the 1.4-ns component (maximum 328 nm) is an exposed hydrophobic tryptophan environment. The results are consistent with an inside-out model for terminal transferase protein, with the more hydrophobic tryptophan(s) near the surface and the most hydrophilic tryptophan(s) in the core.
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PMID:Tryptophan fluorescence of terminal deoxynucleotidyl transferase: effects of quenchers on time-resolved emission spectra. 408 79

A new type of plasmid expression vector was developed for direct expression of foreign genes in Escherichia coli. The plasmid vector, designated pTrS3, carries the E. coli tryptophan (trp) promoter and the Shine-Dalgarno (SD) sequence for the trp leader peptide as well as an ATG sequence located 13 bp downstream from the SD sequence. The dG residue of this ATG overlaps with the first dG residue of the single Sph I recognition sequence (GCATGC) of the vector DNA. After cleaving pTrS3 DNA by Sph I, the 3' protruding Sph I ends were converted into blunt ends using the Klenow fragment of E. coli DNA polymerase I. Subsequently, the DNA fragments coding for mature human interferon-beta or for the interferon lacking several aminoterminal amino acids, were ligated to this vector DNA and cloned in E. coli. Interferon activity was detected in the extracts of bacterial strains harboring the recombinant plasmids and the results indicated that the interferon-beta polypeptides without the five aminoterminal amino acids might be less active than the mature form.
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PMID:Construction and application of a novel plasmid "ATG vector" for direct expression of foreign genes in Escherichia coli. 631 98

A DNA containing the coding sequence for the proteinase inhibitor protein, eglin c, from the leech Hirudo medicinalis has been obtained by enzymatic assembly of chemically synthesized DNA fragments. The synthetic gene consists of a 232 base-pair fragment containing initiation and termination codon signals with restriction enzyme recognition sites conveniently placed for cloning into a plasmid vector. Only six oligonucleotides from 34 to 61 bases in length, sharing pairwise stretches of complementary regions at their 3'-termini, were prepared by phosphotriester solid-phase synthesis. The oligomers were annealed pairwise and converted into double stranded DNA fragments by DNA polymerase I mediated repair synthesis. The fragments were assembled by ligation, and the synthetic gene was expressed in high yield in E. coli under the transcriptional control of the E. coli tryptophan promoter. The expression product was purified to homogeneity and was shown to have similar physicochemical and identical biological properties as the authentic protein isolated from the leech.
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PMID:A large fragment approach to DNA synthesis: total synthesis of a gene for the protease inhibitor eglin c from the leech Hirudo medicinalis and its expression in E. coli. 638 68

Escherichia coli WP2 trpE65(ochre), when grown to stationary phase and plated on glucose salts medium, gave rise to slow growing tryptophan-independent mutants which formed increasing numbers of visible colonies from about day 6 onwards. These mutants were neither revertants at the ochre codon nor mutants at the tRNA suppressor loci normally found in this strain with logarithmic phase mutagenesis. The yield of mutants was not affected by the presence of the following alleles, umuC122, lexA102, polA1, recA1, recA56 or del(srlR-recA)306, except that in the three recA-defective strains, mutant colonies were initially slower to appear, possibly reflecting a lower viability in the inoculum. Stationary-phase spontaneous mutation in bacteria carrying on ochre mutation is thus a distinct and specific process that does not require the SOS system, or UvrA protein or DNA polymerase I. It may reflect the occurrence of a type of non-bulky DNA damage with altered base pairing specificity. In 3 out of 4 experiments with a strain carrying recA441 plus lexA51(Def) the rate of stationary-phase mutagenesis was elevated suggesting that there may be an additional component requiring an activated SOS system.
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PMID:Spontaneous mutation in stationary-phase Escherichia coli WP2 carrying various DNA repair alleles. 768 28

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