Michael C. Fletcher scite author profile

Michael C. Fletcher

5Publications

44Citation Statements Received

210Citation Statements Given

How they've been cited

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139

187

Affiliations

University of Southampton

Publications

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Visualising the kinetics of dissociation of actinomycin from individual sites in mixed sequence DNA by DNase I footprinting

Fletcher¹,

Fox²

1993

Nucl Acids Res

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We have investigated the kinetics of dissociation of actinomycin D from DNA by a variation of the footprinting technique. Complexes of actinomycin with a radiolabelled DNA fragment (tyrT) were dissociated by addition of a large excess of unlabelled calf thyrnus DNA and the mixture subjected to DNase I footprinting at subsequent intervals. The rates at which the footprints disappeared varied between the different binding sites. The dissociation was temperature dependent with average time constants of 30 s, 10 mins and 2 hours at temperatures of 370C, 200C and 40C respectively. The dissociation from a DNA fragment containing the synthetic insert T9GCA9 was significantly faster, with a half-life of about 1 min at 200C. In contrast, the dissociation of distamycin was too fast to measure (<5 s) even at 40C.

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Creation of a ribonuclease abzyme through site-directed mutagenesis

Fletcher¹,

Kuderová

Cygler

et al. 1998

Nat Biotechnol

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The development of abzymes (antibody/enzymes) is one method of creating reagents with novel catalytic activity. To date, most abzymes have been obtained by immunization with transition state analogs. We have chosen to start with an existing antibody and convert it into an enzyme by the addition of catalytic residues to the binding site. We have introduced a histidine residue into antibody Jel 103 and converted it into an abzyme that cleaves poly(rI) with a kinetic efficiency of about 100 M(-1) sec(-1).

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Dissociation Kinetics of Echinomycin from CpG Binding Sites in Different Sequence Environments

Fletcher

Fox

1996

Biochemistry

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We have examined the kinetics of dissociation of echinomycin from CpG sites in several DNA fragments containing synthetic DNA inserts by a variation of the footprinting technique. Complexes of the ligand with radiolabeled DNA fragments were dissociated by adding an excess of unlabeled calf thymus DNA. Samples were removed from this mixture at subsequent time intervals and subjected to DNase I footprinting. The rate of disappearance of the footprints varied considerably between the various CpG sites. At 20 degrees C, echinomycin dissociates more slowly from CpG sites flanked by (AT)n (t1/2 approximately 40 min) and (CA)n.(TG)n (t1/2 approximately 11 min) than by An.Tn (t1/2 < 3 min). In each sequence context the dissociation from ACGT is slower than that from TCGA. (TAA)4CG(TTA)4 also represents a very good binding site (t1/2 approximately 35 min), which is less sensitive to changes in temperature than most other sites. Within sequences (AT)10(G/C)4(AT)10, the dissociation from CGGC is slower than that from CCCG or CCGC.

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Dissociation of the AT-specific bifunctional intercalator [N-MeCys3,N-MeCys7]TANDEM from TpA sites in DNA

Fletcher

Olsen

Fox

1995

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We have examined the dissociation of [N-MeCys3,N-MeCys7]TANDEM, an AT-selective bifunctional intercalator, from TpA sites in mixed-sequence DNAs by a modification of the footprinting technique. Dissociation of complexes between the ligand and radiolabelled DNA fragments was initiated by adding a vast excess of unlabelled calf thymus DNA. Portions of this mixture were subjected to DNAse I footprinting at various times after adding the competitor DNA. Dissociation of the ligand from each site was seen by the time-dependent disappearance of the footprinting pattern. Within a natural DNA fragment (tyrT) the ligand dissociates from TTAT faster than from ATAT. We found that the stability of complexes with isolated TpA steps decreases in the order ATAT > TTAA > TATA. Dissociation from each of these sites is much faster than from longer regions of (AT)n. These results confirm the requirement for A and T base-pairs surrounding the TpA step and suggest that the interaction is strongest with regions of alternating AT, possibly as a result of its unusual structure. The ligand dissociates more slowly from the centre of (AT)n tracts than from the edges, suggesting that variations in dissociation rate arise from sequence-dependent variations in local DNA structure.

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Visualising the dissociation of sequence selective ligands from individual binding sites on DNA

Fletcher

Fox

1996

FEBS Letters

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We have used a modification of the footprinting technique to measure the dissociation of mithramycin, echinomycin and nogalamycin from their binding sites in a natural DNA fragment. Complexes with radiolabelled DNA were dissociated by addition of unlabelled DNA. Samples were removed at various times and subjected to DNase I digestion, and the rate of dissociation from each site was estimated from the time-dependent disappearance of the footprints. For echinomycin the slowest rate of dissociation is from ACGT, while the slowest site for mithramycin contains four contiguous guanines. The dissociation of nogalamycin is extremely slow, even from its weaker sites; the slowest rate was from ACGTA, which took longer than 4 h, even at 37 ° C.Key words." Echinomycin; Mithramycin; Nogalamycin; Dissociation that the complexity observed with natural DNA is due to the parallel dissociation from different binding sites, each of which has different microscopic kinetic constants.We have recently developed a modification of the footprinting technique [20] for visualising the dissociation of ligands from individual binding sites in a mixed sequence DNA. In this technique a complex between the ligand and radiolabelled DNA is dissociated by addition of excess unlabelled DNA. Samples are removed from the reaction mixture at various times and subjected to DNase I footprinting. Dissociation from each binding site is visualised as the time-dependent disappearance of the footprint. In this paper we use this technique to examine the dissociation of echinomycin, mithramycin and nogalamycin from tyrT DNA, and obtain the first estimates for the dissociation of these ligands from individual binding sites. Materials and methods

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