EC:6.5.1.2 - FACTA Search

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Query: EC:6.5.1.2 (DNA ligase)
2,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The joining of duplex DNA at base-paired ends by bacteriophage T4 DNA ligase was confirmed using either a synthetic duplex decamer or restriction endonuclease fragments of ColE1 DNA as substrates. The reaction was not linearly dependent on enzyme concentration but increased markedly at high enzyme concentrations. Although T4 RNA ligase did not catalyze this blunt end joining, it makedly stimulated the DNA ligase reaction particularly at low DNA ligase concentrations. The apparent Km for the decamer was 50 micronM in the presence or absence of RNA ligase. In the presence of RNA ligase, T4 DNA ligase had about the same turnover number for blunt end and cohesive end joining. The joining of duplex DNA at base-paired ends was proven by several techniques including restriction endonuclease cleavage of the products. The products of the ligation reaction using restriction enzyme fragments were mostly linear oligomers but included some circular duplexes. Escherichia coli DNA ligase in the presence or absence of RNA ligase did not catalyze blunt end joining. RNA ligase only moderately affected the joining of cohesive ends by T4 DNA ligase or E. coli DNA ligase and did not itself catalyze this reaction.
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PMID:Interaction of bacteriophage T4 RNA and DNA ligases in joining of duplex DNA at base-paired ends. 86 10

To identify the heterogeneous DNA sequences in the kinetoplast DNA (kDNA) minicircles, we digested the kDNA from various species and isolates of Leishmania into fragments with several restriction endonucleases and those fragments were southern hybridized with whole kDNA. By this test, the AluI fragments were shown to possess the species- and strain-specific sequences. We inserted these kDNA (from L.d. Sichuan human isolate) fragments into SmaI site of plasmid pUC 18. The blunt ligation reaction was carried out with T4 DNA ligase supplemented by T4 RNA ligase. Tens of recombinants were obtained and at least 16 recombinants were shown to have the sequences of kDNA by colony hybridization with whole kDNA. The inserted kDNA sequences can be cut off from vector by Bam HI and EcoR I digestion. The recombinant DNA had no homologous sequences with human genomic DNA, Leptospiral DNA, Romanomermis DNA and L. donovani genomic DNA. The clone pLK1-14, which is the smallest one among all the clones obtained, only hybridized to the L.d. Sichuan human isolate from which it was originated. When pLK1-14 was digested by BamHI and EcoRI, a 180bp fragment comprising about 20 bp of pUC18 sequence, could be produced which corresponded to the 120 +/- 30 bp fragment of kDNA digested by AluI and was shown to be isolate specific. The clone of pLK1-10 hybridized to L. donovani isolates from hill and desert foci, might be used as a specific probe in the distinction of L.d. isolates from hill foci and plain foci. The clones pLK1-1, pLK1-2, and pLK1-15 were present in all isolates of visceral Leishmania but not in L. major and lizard Leishmania tested. These sequences might be used as specific probes in the diagnosis of visceral leishmaniasis and might be useful in epidemiological studies for identification of vectors and reservoirs.
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PMID:[Cloning of the sequences of kinetoplast DNA specific to Leishmania donovani species and strains]. 180 51

In this review the results of the interaction of the active dyes used in the USSR textile industry with microbial enzymes and blood serum proteins are discussed. The complexity of dye/protein interaction and the dependence of this interaction on different factors is demonstrated. Some practical aspects of the use of dye containing sorbents are presented and discussed. Their suitability for RNA ligase and DNA ligase, acetate kinase, alcohol dehydrogenase, lactate dehydrogenase and glucose-6-phosphate dehydrogenase purification and blood serum protein fractionation is demonstrated.
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PMID:Investigation of dye/protein interaction and its application to enzyme purification. 222 63

T4 RNA ligase was used to construct a deoxypentanucleotide containing a single 8-hydroxyguanine (7-hydro-8-oxoguanine; G8-OH) residue, which is one of the putatively mutagenic DNA adducts produced by oxidants and ionizing radiation. The pentamer d(GCTAG8-OH)p was prepared by the ligation of a chemically synthesized acceptor molecule, d(GCTA), to an adducted donor, 8-hydroxy-2'-deoxyguanosine 5',3'-bisphosphate. The acceptor was efficiently converted to the reaction product (greater than 95%), and the final product yield was 50%. Following 3'-dephosphorylation, the pentamer was characterized by UV spectroscopy, by high-pressure liquid chromatography, and by gas chromatography-mass spectrometry of the nucleosides released by enzymatic hydrolysis. Both d(GCTAG8-OH) and an unmodified control were 5'-phosphorylated by using [gamma -32P]ATP and incorporated covalently by DNA ligase into a five-base gap at a unique NheI restriction site in the otherwise duplex genome of an M13mp19 derivative. The ligation product contained G8-OH at the 3' residue of an in-frame amber codon (5'-TAG-3') (genome position 6276) of the phage lacZ alpha gene. The adduct was part of a nonsense codon in a unique restriction site in order to facilitate the identification and selection of mutants generated by the replication of the modified genome in Escherichia coli. Both control and adducted pentamers ligated into the genome at 50% of the maximum theoretical efficiency, and nearly all (approximately 90%) of the site-specifically adducted products possessed pentanucleotides that were covalently linked at both 5' and 3' termini. The G8-OH lesion in the NheI site inhibited the cleavage of the site by a 200-fold excess of NheI.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanistic studies of ionizing radiation and oxidative mutagenesis: genetic effects of a single 8-hydroxyguanine (7-hydro-8-oxoguanine) residue inserted at a unique site in a viral genome. 222 58

Biotin has been converted to 2-(biotinylamido)ethanol and condensed to phosphorylated oligonucleotides in a solid phase synthesis. The 5'-biotinylated oligonucleotides were enzymatically coupled to other DNA fragments by T4 DNA ligase or T4 RNA ligase. The hybridization properties of such biotin-labeled oligonucleotide probes were studied.
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PMID:Chemical and enzymatic biotin-labeling of oligodeoxyribonucleotides. 258 52

Behavior of the covalent [32P]- and [14C]AMP-RNA ligase complex under various conditions has been studied. The covalent structure is shown to be readily cleaved by acid and hydroxylamine and relatively stable to alkali and snake venom phosphodiesterase. Products of degradation of the AMP-RNA ligase and AMP-DNA ligase complexes were compared. The data obtained support the earlier assumption of a phosphoamide bond in the AMP-RNA ligase compound.
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PMID:[Hydrolytic stability of a covalent AMP-RNA ligase complex]. 299 84

A procedure for simultaneous large-scale purification of the bacteriophage-T4-induced polynucleotide kinase, DNA ligase, RNA ligase and DNA polymerase has been developed. The method involves bacterial cell disruption by sonication, fractionation of cell extract with polymin P, salt elution from the polymin pellets, ammonium sulfate precipitation, and subsequent column chromatography purification of the enzymes. To enrich the enzyme content highly in the initial source non-permissive Escherichia coli B-23 cells infected with T4 amN82 phage were used. The procedure described is rapid, reproducible, high in yield, and able to handle preparations using from 1 g to 200 g cell paste. It can be easily scaled up. The method results in large amounts of the enzymes with very high specific activities, good stability essential lacking exonuclease and endonuclease contamination. The final enzyme preparations were efficiently used in DNA sequencing and in multiple experiments on construction of various recombinant DNAs for cloning and expression in vivo.
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PMID:A new procedure for the simultaneous large-scale purification of bacteriophage-T4-induced polynucleotide kinase, DNA ligase, RNA ligase and DNA polymerase. 626 Apr 93

Using kinetic methods and differential spectrophotometry, the interaction between DNA and RNA ligases T4 and cibacron blue F3GA was studied. It was shown that the dye inhibits the first step of the enzymatic reaction, i. e. the formation of the AMP ligase complex. A 50% inhibition of the AMP-ligase complex by DNA ligase occurs at the dye concentration of 1 X 10(-5) M, that by RNA ligase--at 1 X 10(-4) M. Cibacron blue F3GA also inhibits the formation of end products of the reaction catalyzed by these enzymes. The dye is a noncompetitive inhibitor of RNA ligase with respect to [32P]oligoA20 and a competitive one with respect to ATP. Using differential spectrophotometry, it was found that the interaction occurs predominantly via electrostatic bonds between the SH-groups of the dye and the amino groups of lysine residues. DNA ligase possesses a higher affinity for the dye than RNA ligase.
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PMID:[Interaction of DNA and RNA ligases of phage T4 with Cibacron Blue F 3GA]. 670 48

T4 RNA ligase joins a 3'-hydroxyl-terminated acceptor oligoribonucleotide to a 5'-phosphate-terminated donor oligoribonucleotide. An analogous reaction with single-strand DNA oligonucleotides would be useful for the synthesis of defined sequences of DNA because it would eliminate the need to synthesize complementary sequences to form the duplex substrates required by DNA ligase. We have studied the model reaction dA(pdA)5 + [5'-32P] (pdT)4pdCp leads to dA(pdA)5 [3' leads to 5'-32P]pdT(pdT)3pdCp and have obtained 40-60% yields at equimolar concentrations (100 microM to 1 mM) of the two substrates. Higher yields have been obtained when acceptor concentrations in excess of those of the donor are used. The use of a 5'-hydroxyl, 3'-hydroxyl terminated acceptor and a 5'-phosphate, 3'-phosphate terminated donor limits the reaction to a unique product. The 3'-phosphate-terminated donor was prepared by using RNA ligase to add a single deoxyribonucleoside 3',5'-bisphosphate donor to an oligo(deoxyribonucleotide) acceptor [Hinton, D.M., Baez, J.A., & Gumport, R.I. (1978) Biochemistry 17, 5091]. The DNA oligomer joining reaction requires low concentrations of ATP and an ATP regenerating system, Mn2+, high levels of nuclease-free RNA ligase (30 microM), and incubation for several days at 17 degrees C. The product of the reaction was characterized by its resistance to alkaline phosphatase, degradation by micrococcal nuclease to the expected product [3'-32P]dAMP, and mobility during high-pressure liquid chromatography on RPC-5. The joining of several other deoxyoligomers was also demonstrated. We anticipate that this reaction of RNA ligase will contribute to its usefulness as a reagent for the synthesis of DNA of defined sequence.
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PMID:T4 ribonucleic acid ligase joins single-strand oligo(deoxyribonucleotides). 698 3

Photoreactive tRNA derivatives have been used extensively for investigating the interaction of tRNA molecules with their ligands and substrates. Recombinant RNA technology facilitates the construction of such tRNA probes through site-specific incorporation of photoreactive nucleosides. The general strategy involves preparation of suitable tRNA fragments and their ligation either to a photoreactive nucleotide or to each other. tRNA fragments can be prepared by site-specific cleavage of native tRNAs, or synthesized by enzymatic and chemical means. A number of photoreactive nucleosides suitable for incorporation into tRNA are presently available. Joining of tRNA fragments is accomplished either by RNA ligase or by DNA ligase in the presence of a DNA splint. The application of this methodology to the study of tRNA binding sites on the ribosome is discussed, and a model of the tRNA-ribosome complex is presented.
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PMID:Recombinant photoreactive tRNA molecules as probes for cross-linking studies. 753 27

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