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1 , with ligation of these strands mediated by T4 DNA ligase.
2 , and the resulting termini are ligated with T4 DNA ligase.
3 timulation of end-joining in the presence of T4 DNA ligase.
4 equence and the RNA probe are linked using a T4 DNA ligase.
5 e ligation reactions using T4 RNA ligase and T4 DNA ligase.
6 s as tools to determine the DNA footprint of T4 DNA ligase.
7 , which allows for cyclization/ligation with T4 DNA ligase.
8 ends can undergo self-ligation catalyzed by T4 DNA ligase.
9 r C, proliferating cell nuclear antigen, and T4 DNA ligase.
10 ders of magnitude higher fidelity than viral T4 DNA ligase.
11 ion of the strains containing high levels of T4 DNA ligase.
12 degrees C; (iii) it has higher fidelity than T4 DNA ligase.
13 er incubation times than required when using T4 DNA ligase.
14 ded by DNA exonucleases or ligated by T3 and T4 DNA ligases.
15 s and illustrates examples using the Taq and T4 DNA ligases.
16 nerated cysteine at the N terminus of either T4 DNA ligase (56 kDa) or thioredoxin (12 kDa) resulted
17 ct 5'-dRP group release assays, we show that T4 DNA ligase, a representative ATP-dependent DNA ligase
18 could be ligated to an acceptor duplex using T4 DNA ligase, a result that suggests that the C-C cross
19 s, the reaction mixtures were incubated with T4 DNA ligase and ATP and then used to transfect SOS-ind
22 oligonucleotide of length six or less, while T4 DNA ligase and T7 DNA ligase are both able to join he
23 ving the repair of DNase I digested DNA with T4 DNA ligase and the Klenow fragment of DNA polymerase
24 lently linked to the restriction fragment by T4 DNA ligase, and amplification is carried out under co
25 promotes DNA end-joining in the presence of T4 DNA ligase, and this property is mediated by the C-te
27 of a DNA linker to the tailed cDNA by use of T4 DNA ligase; and (iv) PCR using a nested, gene-specifi
28 n of base excision repair can be mediated by T4 DNA ligase as well as human DNA ligase I or ligase II
29 reaction instead of the existing chemical or T4 DNA ligase-based methods allows quantitative conversi
30 fficiency on nick position demonstrates that T4 DNA ligase bound asymmetrically to its DNA substrate.
33 The development and in-depth analysis of T4 DNA ligase-catalyzed DNA templated oligonucleotide po
37 ge and small DNA substrates can be sealed by T4 DNA ligase, confirming the formation of nicked duplex
39 he stereochemical preferences of AP endo and T4 DNA ligase for phosphorothioate substrates, we show t
43 on linear pUC19 plasmid DNA was treated with T4 DNA ligase in solutions containing 2 mM Mg2+ over a r
44 ay system to show increased sensitivity over T4 DNA ligase in the specific detection of a target mRNA
48 , indicating that the rate-limiting step for T4 DNA ligase nick sealing is not a chemical step but ra
49 SplintR Ligase is 100X faster than either T4 DNA Ligase or T4 RNA Ligase 2 for RNA splinted DNA li
51 1 nM at 25 degrees C under conditions where T4 DNA ligase produced only 5'-adenylylated DNA with a 2
56 rase and dNTPs or by enzymatic ligation with T4 DNA ligase to another oligonucleotide opposite a comp
58 n be linked to each other by incubation with T4 DNA ligase to form a full probe that serves as a temp
59 ensely functionalized nucleic acids by using T4 DNA ligase to mediate the DNA-templated polymerizatio
61 interactions is confirmed with both Tth and T4 DNA ligases upon examination of base pairs containing
62 ng by both ASFV DNA ligase and bacteriophage T4 DNA ligase was determined in the steady state for sub
64 Ligation experiments using bacteriophage T4 DNA ligase were carried out with purine lesions in fo
65 d by ligation of three to ten hexamers using T4 DNA ligase) were all of high quality, with no spuriou
66 n-ligation strategy based on USER Enzyme and T4 DNA ligase, which allows the simultaneous and seamles
67 ed enzyme for this reaction is bacteriophage T4 DNA ligase, which requires ATP as the energy source t
68 of this previously undiscovered property of T4 DNA ligase with canonical nucleosides are discussed.
69 p at the modification site that is sealed by T4-DNA ligase, yielding a product strand missing the mod
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