Interaction of the Restriction Endonuclease EcoRV with the Deoxyguanosine and Deoxycytidine Bases in Its Recognition Sequence

Waters, T.P.; Connolly, Bernard A.

doi:10.1021/bi00173a026

Cited by 36 publications

(27 citation statements)

References 47 publications

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“…In the cognate complex, the protein makes extensive hydrogen-bonding contacts with the bases in the DNA major groove; these contacts are absent in the non-cognate complex and the corresponding protein elements are largely disordered. The observed protein-base contacts are generally consistent with those inferred from biochemical studies on the effects of modi®ed DNA bases (Mazzarelli et al, 1989;Newman et al 1990b;Waters & Connolly, 1994). In summary, the cognate complex in the absence of Mg 2 appears to have all the structural properties expected for a speci®c recognition complex, but the non-cognate complex does not.…”

Section: Introductionsupporting

confidence: 77%

Specific binding by EcoRV endonuclease to its DNA recognition site GATATC

Engler

Welch

Jen‐Jacobson

1997

Journal of Molecular Biology

143

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Section: Introductionsupporting

confidence: 77%

Specific binding by EcoRV endonuclease to its DNA recognition site GATATC

Engler

Welch

Jen‐Jacobson

1997

Journal of Molecular Biology

143

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“…Restriction enzymes were purchased from NBL (Northumbria Biological Laboratories, Cramlington, UK) and Taq DNA polymerase was from Boehringer Mannheim (Lewes, UK). Oligonucleotides primers for PCR amplification were synthesized on an Applied Biosystems 381A DNA synthesizer using the phosphoramidite method (Newman et al, 1990;Connolly 1991Connolly , 1992Waters and Connolly, 1994) with reagents from either Cruachem (Glasgow, Scotland) or Applied Biosystems (Warrington, UK). The phosphoramidite of 6-methyldeoxyadenosine was purchased from Pharmacia.…”

Section: Methodsmentioning

confidence: 99%

The EcoRV Modification Methylase Causes Considerable Bending of DNA upon Binding to Its Recognition Sequence GATATC

Cal

Connolly

1996

Journal of Biological Chemistry

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The EcoRV methyltransferase modifies DNA by the introduction of a methyl group at the 6-NH 2 position of the first deoxyadenosine in GATATC sequences. The enzyme forms a stable and specific complex with GATATC sequences in the presence of a nonreactive analogue, such as sinefungin, of its natural cofactor S-adenosyl-L-methionine. Using circular permutation band mobility shift analysis (in which the distance between the GATATC sequence and the end of the DNA is varied) of protein-DNA-cofactor complexes we have shown the methylase induces a bend of just over 60°in the bound DNA. This was confirmed by phasing analysis, in which the spacing between the GATATC site and a poly(dA) tract is varied through a helical turn, which showed that the orientation of the induced curve was toward the major groove. There was no significant difference in the bend angle measured using unmethylated GATATC sequences and hemimethylated sequences which contain G 6-Me ATATC in one strand only. These are the natural substrates for the enzyme. The EcoRV endonuclease, a very well characterized protein, served as a positive control. DNA bending by this protein has been previously determined both by crystallographic and solution methods. The two proteins bend DNA toward the major groove but the bend angle produced by the methylase, slightly greater than 60°, is a little larger than that observed with the endonuclease, which is approximately 44°.

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“…The similarity of the two rate constants is in agreement with the assertion that the trajectories comprise molecular events like DNA bending, DNA hydrolysis, and product release, but not DNA binding, which is expected to be much slower in case of the 30-bp spacer because of steric hindrance. The catalytic cycle of EcoRV with short (7-14 bp) substrate DNAs has been investigated in bulk by using FRET, stopped-flow fluorescence, fluorescence anisotropy, and quench-flow methods (46,48,49). These studies found that the turnover rate k cat is limited by rates of DNA hydrolysis and product release (Fig.…”

Section: Dynamics Of Ecorv-catalyzed Dna Cleavage As Measured With Plmentioning

confidence: 99%

Use of plasmon coupling to reveal the dynamics of DNA bending and cleavage by single EcoRV restriction enzymes

Reinhard

Sheikholeslami

Mastroianni

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

270

328

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Pairs of Au nanoparticles have recently been proposed as ''plasmon rulers'' based on the dependence of their light scattering on the interparticle distance. Preliminary work has suggested that plasmon rulers can be used to measure and monitor dynamic distance changes over the 1-to 100-nm length scale in biology. Here, we substantiate that plasmon rulers can be used to measure dynamical biophysical processes by applying the ruler to a system that has been investigated extensively by using ensemble kinetic measurements: the cleavage of DNA by the restriction enzyme EcoRV. Temporal resolutions of up to 240 Hz were obtained, and the end-to-end extension of up to 1,000 individual dsDNA enzyme substrates could be simultaneously monitored for hours. The kinetic parameters extracted from our singlemolecule cleavage trajectories agree well with values obtained in bulk through other methods and confirm well known features of the cleavage process, such as DNA bending before cleavage. Previously unreported dynamical information is revealed as well, for instance, the degree of softening of the DNA just before cleavage. The unlimited lifetime, high temporal resolution, and high signal/noise ratio make the plasmon ruler a unique tool for studying macromolecular assemblies and conformational changes at the single-molecule level.

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Interaction of the Restriction Endonuclease EcoRV with the Deoxyguanosine and Deoxycytidine Bases in Its Recognition Sequence

Cited by 36 publications

References 47 publications

Specific binding by EcoRV endonuclease to its DNA recognition site GATATC

Specific binding by EcoRV endonuclease to its DNA recognition site GATATC

The EcoRV Modification Methylase Causes Considerable Bending of DNA upon Binding to Its Recognition Sequence GATATC

Use of plasmon coupling to reveal the dynamics of DNA bending and cleavage by single EcoRV restriction enzymes

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