Dynamics of single DNA looping and cleavage by Sau3AI and effect of tension applied to the DNA

doi:10.1529/biophysj.106.088518

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Biophys. J. BioFAST: First Published September 8, 2006. doi:10.1529/biophysj.106.088518
© 2006 by the Biophysical Society.

A more recent version of this article appeared on December 1, 2006.

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NUCLEIC ACIDS

Dynamics of single DNA looping and cleavage by Sau3AI and effect of tension applied to the DNA

Gregory J Gemmen ¹, Rachel Millin ¹ and Douglas E Smith ²^*

¹ University of California, San Diego
² University of California at San Diego

^* To whom correspondence should be addressed. E-mail: des{at}physics.ucsd.edu.

Submitted on May 9, 2006
Revised on July 23, 2006
Accepted on 21 August 2006

Abstract
Looping and cleavage of single DNA molecules by the two-siterestriction endonuclease Sau3AI were measured with optical tweezers. A DNA template containing many recognition sites was used,permitting loop sizes from ~10 to 10,000 basepairs. At highenzyme concentration cleavage events were detected within 5seconds and nearly all molecules were cleaved within 5 minutes. Activity decreased ~10-fold as the DNA tension was increasedfrom 0.03 to 0.7 pN. Substituting Ca²+ for Mg²⁺ blocked cleavage,permitting measurement of stable loops. At low tension, theinitial rates of cleavage and looping were similar (~0.025 s^-1at 0.1 pN), suggesting that looping is rate limiting. Shortloops formed more rapidly than long loops. The optimum sizedecreased from ~250 to 45 bp and the average number of loops(in 1 minute) from 4.2 to 0.75 as tension was increased from0.03 to 0.7 pN. No looping was detected at 5 pN. These findingsare in qualitative agreement with recent theoretical predictionsconsidering only DNA mechanics, but we observed weaker suppressionwith tension and smaller loop sizes. Our results suggest thatthe span and elasticity of the protein complex, nesting of loops,and protein-induced DNA bending and wrapping play an importantrole.

Key Words: DNA looping, Restriction Endonucleases, Sau3AI, Single DNA manipulation

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