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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)

Bacteriophage-T4 and human type I DNA ligases were found capable of self-adenylating upon exposure to both ribo- and deoxyribo-[alpha-35S]thio-ATP. However, the joining reaction does not take place in the presence of the deoxyribotriphosphates. Enzyme adenylation is reversed in all cases by an excess of PPi, but the rate of reversion is lower with thio derivatives. Therefore thio derivatives can be used to study the adenylation of DNA ligases and to search for specific inhibitors of the first step of the ligation reaction. In addition we show that thio derivatives can be used to detect DNA ligase adenylation activity covalently bound to a solid matrix.
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PMID:Use of ATP, dATP and their alpha-thio derivatives to study DNA ligase adenylation. 222 17

Kinetic analysis of the reaction catalyzed by calf thymus DNA ligase (EC 6.5.1.1) has been carried out using [5'-32P]nicked DNA as substrate. The results of initial velocity and product inhibition studies indicate that the ligase reaction is likely to proceed through the 'uni-uni uni-bi ping-pong' mechanism. The order of substrate addition and product release is as follows: ATP, PPi, nicked DNA, sealed DNA and 5'-AMP. The true Km values for ATP and for nicked DNA (5'-phosphoryl ends) were 2 microM and 0.11 microM, respectively. The turnover number was estimated to be 7 sealing events per min. dATP was an inhibitor competitive with ATP (Ki = 25 microM). The addition of 0.5 mM spermine or 5 mM spermidine resulted in an increase in the apparent Km for nicked DNA as well as in the apparent V, whereas 0.1 M KCl increased only the apparent Km for nicked DNA. Neither polyamine nor KCl affected the apparent Km for ATP. The ligase reaction was not significantly affected by aphidicolin and various phosphate compounds tested.
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PMID:Kinetic studies on the reaction catalyzed by DNA ligase from calf thymus. 688 74

Both bacteriophage T4 and human type I DNA ligases in the presence of a mixture of ATP, AMP and PPi altered the topological properties of a supercoiled substrate by a step-wise reaction eventually leading to a population of fully relaxed, covalently closed products. In the presence of only AMP and PPi DNA products containing nicks with 3'OH/5'P termini accumulated in the presence of bacteriophage T4 DNA ligase, suggesting reversal of the entire joining reaction, but not in the presence of human DNA ligase I. Both DNA ligases became deoxyadenylylated in the presence of dATP, but the joining reaction did not proceed to completion. However, with both enzymes the full relaxing reaction took place in the presence of dAMP alone and in the presence of a mixture of dATP, dAMP and PPi. In no case could the joining reaction be reversed by dAMP and PPi. Related experiments with modified derivatives of deoxyribonucleoside 5'-triphosphates and PPi gave results in accord with these observations. The AMP dependent DNA relaxation catalysed by DNA ligases was insensitive to the presence of exonuclease III. These results indicate that controlled relaxation of the substrate by both DNA ligases occurs as a separate reaction rather than by simple reversal of the joining reaction. These findings support the hypothesis that in vivo the DNA topoisomerising ligases relax their substrate at the replication fork both during and separately from ligation of a pre-existing nick.
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PMID:Bacteriophage T4 and human type I DNA ligases relax DNA under joining conditions. 829 Mar 55

Equilibrium constants for the adenylylation of T4 DNA ligase have been measured at 10 pH values. The values, when plotted against pH, fit a titration curve corresponding to a pKa of 8.4 +/- 0.1. The simplest interpretation is that the apparent pKa is that of the 6-amino group of the AMP-accepting residue Lys159. Based on the pH dependence of the equilibrium constants, the value at pH 7.0 is 0. 0213 at 25 degrees C, corresponding to DeltaG'o = +2.3 kcal mol-1. From this value and the standard free energy change of -10.9 kcal mol-1 for the hydrolysis of ATP to AMP and PPi, we calculate that DeltaG'o for the hydrolysis of the adenylyl-DNA ligase is -13.2 kcal mol-1. The presence of conserved basic amino acid residues in the catalytic domain, which are proximal to the active site in the homologous catalytic domain of T7 DNA ligase, suggests that the pKa of Lys159 is perturbed downward by the electrostatic effects of nearby positively charged amino acid side chains. The lower than normal pKa 8.4 compared with 10.5 for the 6-amino group of lysine and the high energy of the alpha,beta-phosphoanhydride linkage in ATP significantly facilitate adenylylation of the enzyme.
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PMID:Standard free energy for the hydrolysis of adenylylated T4 DNA ligase and the apparent pKa of lysine 159. 1008 93

Here we report the purification and biochemical characterization of recombinant Arabidopsis thaliana DNA ligase I. We show that this ligase requires ATP as a source for adenylation. The calculated Km [ATP] for ligation is 3 microM. This enzyme is able to ligate nicks in oligo(dT)/poly(dA) and oligo(rA)/poly(dT) substrates, but not in oligo(dT)/poly(rA) substrates. Double-stranded DNAs with cohesive or blunt ends are also good substrates for the ligase. These biochemical features of the purified enzyme show the characteristics typical of a type I DNA ligase. Furthermore, this DNA ligase is able to perform the reverse reaction (relaxation of supercoiled DNA) in an AMP-dependent and PPi-stimulated manner.
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PMID:Characterization of an ATP-dependent type I DNA ligase from Arabidopsis thaliana. 1144 56

The gene from Neisseria meningitidis serogroup A, encoding a putative, secreted ATP-dependent DNA ligase was cloned and overexpressed, and the soluble protein was purified. Mass spectrometry indicated that the homogeneous protein was adenylated as isolated, and sedimentation velocity experiments suggested that the enzyme exists as a monomer in solution. The 31.5 kDa protein can catalyze the ATP-dependent ligation of a singly nicked DNA duplex but not blunt-end joining. The first step of the overall reaction, the ATP-dependent formation of an adenylated ligase, was studied by measuring the formation of the covalent intermediate and isotope exchange between [alpha-32P] ATP and PPi. Mg2+ was absolutely required for this reaction and was the best divalent cation to promote catalysis. Electrophoretic gel mobility shift assays revealed that the enzyme bound both unnicked and singly nicked double stranded DNA with equivalent affinity (Kd approximately 50 nM) but cannot bind single stranded DNA. Preadenylated DNA was synthesized by transferring the AMP group from the enzyme to the 5'-phosphate of a 3'-dideoxy nicked DNA. The rate of phosphodiester bond formation at the preadenylated nick was also Mg(2+)-dependent. Kinetic data showed that the overall rate of ligation, which occurred at 0.008 s(-1), is the result of three chemical steps with similar rate constants (approximately 0.025 s(-1)). The Km values for ATP and DNA substrates, in the overall ligation reaction, were 0.4 microM and 30 nM, respectively.
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PMID:Mechanistic and kinetic study of the ATP-dependent DNA ligase of Neisseria meningitidis. 1473 Sep 75