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1 ion or phosphodiester synthesis steps of the ligation reaction.
2 nd 3'-ends of the RNA into proximity for the ligation reaction.
3 opies of itself through an RNA-catalyzed RNA ligation reaction.
4 ereo-specificity of the heme-apocytochrome c ligation reaction.
5 Lys251 and Asp253 at different steps of the ligation reaction.
6 random sequences, performs an efficient RNA ligation reaction.
7 ne functional groups to the hairpin ribozyme ligation reaction.
8 t concentrations as high as 50 microM in the ligation reaction.
9 ing RNAs because the cP inhibits the adapter ligation reaction.
10 required for the strand closure step of the ligation reaction.
11 ing, at the end distal to the join, slow the ligation reaction.
12 -mRNA splicing before the first cleavage and ligation reaction.
13 d the ligase during pre- and post-step 3 the ligation reaction.
14 ing the pre- and post-catalytic steps of the ligation reaction.
15 oken strand breaks in the three steps of the ligation reaction.
16 an be further derivatized in a bioorthogonal ligation reaction.
17 enabled enzyme library screening for peptide ligation reaction.
18 circularized in a strictly target dependent ligation reaction.
19 mes in which decarboxylation is coupled to a ligation reaction.
20 emical evidence has been established for the ligation reaction.
21 oach that enabled the reconstitution of this ligation reaction.
22 -5'-AMP), the obligatory intermediate of the ligation reaction.
23 ucidation of the mechanism of WaaL-catalyzed ligation reaction.
24 ynthesized peptide using the native chemical ligation reaction.
25 and catalytic mechanism of the kinetoplastid ligation reaction.
26 riction-enzyme-digested vectors prior to the ligation reaction.
27 sion through the three chemical steps of the ligation reaction.
28 ined by Watson-Crick base pairing during the ligation reaction.
29 inhibition of the hairpin-catalyzed RNA-RNA ligation reaction.
30 f miRNA-target chimeras formed by endogenous ligation reactions.
31 ctive groups on protein sequences for use in ligation reactions.
32 ure have been examined in the BrCN activated ligation reactions.
33 xhibited quite different effects on the same ligation reactions.
34 omains is required for both the cleavage and ligation reactions.
35 ions has classically focused on bond-forming ligation reactions.
36 of an a-helix to control strand cleavage and ligation reactions.
37 arcodes are appended to the cDNA via in-cell ligation reactions.
38 late groups from DNA that arise from aborted ligation reactions.
39 e labeling using in vitro selective chemical ligation reactions.
40 e regioselectivity of ribozyme-catalyzed RNA ligation reactions.
41 icks or breaks that result from abortive DNA ligation reactions.
42 ithout the need for restriction digestion or ligation reactions.
43 yme catalyzes site-specific RNA cleavage and ligation reactions.
44 DNA sites and catalysis of DNA cleavage and ligation reactions.
45 e for sequence-specific primer extension and ligation reactions.
47 plants that can perform site-specific, rapid ligation reactions after a target peptide asparagine/asp
49 f this reaction limits the efficiency of the ligation reaction and has become a significant constrain
51 uorescence protein (GFP) through an in vitro ligation reaction and the 17.8-kb-long X-inactive-specif
52 ibuting to the remarkable specificity of the ligation reaction and the physiological reaction conditi
53 increasing the rate constant of the surface ligation reaction and thus the probability of immobiliza
54 al domain that executes the DNA cleavage and ligation reactions and a smaller amino-terminal domain t
55 aphylococcus aureus sortase A for a range of ligation reactions and demonstrate that conditions can r
56 uential cleavage, U addition or removal, and ligation reactions and is directed by complementary guid
57 luded the standard enzyme digestion-mediated ligation reactions and the subsequent isolation of plasm
60 tivated 4-mer PNAs that react in a templated ligation reaction at muM concentrations within minutes.
61 n described a hundred years ago in 1919, the ligation reaction became one of the most important and e
63 addition to oligosaccharide sequencing, the ligation reaction between an oligosaccharide and an amin
64 s model is based on the L-21 Sca I catalyzed ligation reaction between exogenously added oligomers: c
67 porated into the cell wall through a peptide ligation reaction catalyzed by transpeptidase sortase.
68 repair pathway, namely the DNA synthesis and ligation reactions catalyzed by E. coli DNA polymerase a
70 We have found that the rate of the trans ligation reaction depends on pH, corresponding to the pr
71 ible; the pyrophosphate leaving group in the ligation reaction does not induce 2',5'-cleavage, and py
73 de an unprecedented insight into the role of ligation reaction efficiency in mediating the exploratio
75 ults revealed that IntDOT is able to perform ligation reactions even when all the bases within the cr
76 e C-C cross-link does not interfere with the ligation reaction, even when it is located only two base
77 that incorporates the SNP specificity of the ligation reaction for more effective clinical management
78 ternal" equilibrium between the cleavage and ligation reactions for the circular hammerheads was shif
83 It is based on the use of a specific gap ligation reaction, horseradish peroxidase (HRP) for sign
84 DNA ligases catalyze a NAD(+)-dependent DNA ligation reaction, i.e., the formation of a phosphodiest
85 pendent conversion of two rapid photoinduced ligation reactions, i.e., the light activation of o-meth
86 d to a larger total surface area for the RNA ligation reaction; (ii) the SiNPs enhance the diffusion
87 s that theoretically may both participate in ligation reactions, implying that potentially not only p
88 L), combines the PCR and the oligonucleotide ligation reaction in a two-stage thermal cycling sequenc
89 ormations that may help us to understand the ligation reaction in FPGS and influence the design of me
90 is catalyzed by the ribozyme catalyzing the ligation reaction in its deprotonated state (rate 1.05 m
91 intermediate during the initial step of the ligation reaction in the presence of an A:C mismatch at
93 technique relies upon a simple, preliminary ligation reaction in which target DNA sequences are conv
95 alf of the selected deoxyribozymes mediate a ligation reaction involving the natural branch-point ade
98 hioalkyl esters are rather unreactive so the ligation reaction is catalyzed by in situ transthioester
101 A self-catalyzed mechanism for this cleavage-ligation reaction is presented, based on mutagenesis dat
102 The requirement of 3' complementarity for a ligation reaction is reaffirmed by results from 1 nt ins
106 ntly attached to the surface by an enzymatic ligation reaction (leaving the anti-sense strand dissoci
108 m and the tight coupling of the cleavage and ligation reactions make it difficult to characterize the
109 of uncatalyzed RNA backbone cleavage, their ligation reactions may be of direct relevance to the RNA
110 catalytic determinants for the cleavage and ligation reactions mediated by the hairpin ribozyme are
113 of peptide or protein products directly from ligation reaction mixtures by Ni-NTA affinity column pur
115 and enhancements have been conducted in the ligation reaction, notably by embedding an extra thymine
116 nous nucleobase rescue for both cleavage and ligation reactions now allow us to refine models of the
117 functionalized sialic acid derivative with a ligation reaction of a fluorogenic tetrazine, allowing f
118 +)-dependent deoxyribozymes that mediate the ligation reaction of an RNA 5'-hydroxyl group with a 2',
122 ificant roles in modulating the DNA cleavage/ligation reaction of the enzyme and its response to anti
124 familiarize the reader with the DNA cleavage/ligation reaction of topoisomerase II and other aspects
127 e found that nonenzymatic, template-directed ligation reactions of oligoribonucleotides display high
128 were investigated by comparing cleavage and ligation reactions of ribozyme variants with A38 modific
130 However, optimizing such multi-parametric ligation reactions often involves extensive trial and er
132 ing (SPRI) measurements of surface enzymatic ligation reactions on DNA microarrays is demonstrated.
133 method has been used to analyze the multiple ligation reactions onto radiolabeled DDAH 4PteGlu 1 cata
134 hairpin ribozyme-mediated self-cleavage and ligation reactions participate in processing RNA replica
135 s from a random sequence pool in a templated ligation reaction reduced the sequence space of product
136 lization and a general base may catalyze the ligation reaction required for prebiotic RNA assembly.
137 hundred peptides were obtained in a one-pot ligation reaction, selected by affinity against MDM2 imm
141 Cl(2)/H(2)O medium proved to be best for the ligation reactions, suppressing the undesired azide redu
142 activity was found to be required for an end-ligation reaction that circularizes a portion of the uni
143 zation, an efficient one-step chemical sugar ligation reaction that does not require prior sugar prot
145 ation of exogenous lipoate is catalyzed by a ligation reaction that proceeds via a lipoyl-adenylate i
146 to highly specific self-cleavage and protein ligation reactions that are useful protein engineering t
147 ck" is often applied inaccurately to polymer ligation reactions that fail to respect the criteria tha
148 After an introduction to the bioorthogonal ligation reactions that have been used in in connection
149 res are two sequential pairs of DNA cleavage/ligation reactions that proceed via a 3' phosphotyrosine
150 moval of adenylates that arise from abortive ligation reactions that take place at incised abasic sit
153 g ligated products in template-promoted self-ligation reactions, thus yielding multiple signals per t
154 adily by camptothecin than the corresponding ligation reaction to form a fully complementary duplex;
155 the acceptor strand was not required for the ligation reaction to proceed, but duplex formation to pr
156 sor oligonucleotides expand the scope of the ligation reaction to reagent-free, mild conditions.
157 ites coupled with simultaneous digestion and ligation reactions to create just one product, by conver
158 hout this tool, the powerful native chemical ligation reaction typically used to assemble polypeptide
160 aryotic genomes is ensured by three-step DNA ligation reactions used by ATP-dependent DNA ligases.
161 ated ssDNA is ready to be circularized via a ligation reaction using a bridging oligonucleotide.
162 the bisphosphate and carried out successive ligation reactions using T4 RNA ligase and T4 DNA ligase
165 hat the activity of human Cdc34 in the Ub-Ub ligation reaction was enhanced dramatically by SCF's cor
166 omerase I-mediated mismatch formation in the ligation reaction was inhibited more readily by camptoth
168 nt base ionization events in the VS ribozyme ligation reaction, we performed nucleotide analogue inte
170 nkages accompanying all 16 stepwise cyanomet ligation reactions were experimentally resolved, only tw
172 s for ATP and DNA substrates, in the overall ligation reaction, were 0.4 microM and 30 nM, respective
173 elity (HiFi) DNA ligases at each step of the ligation reaction, which has parallels to the ribonucleo
177 ctrodes apparently because of a slow nitrite ligation reaction with Rh(III); however, a significant i
178 The flow EPL platform enables efficient ligation reactions with high recoveries of target protei
179 lycosylated residue were shown to facilitate ligation reactions with peptide thioesters, and these pr
181 the polymer film and their strength of axial ligation reactions, with a selectivity pattern of 1-buty
184 uential chemical synthesis and enzymatic DNA ligation reactions yield an encoded library in which ind