Journal
NUCLEIC ACIDS RESEARCH
Volume 48, Issue 9, Pages 5147-5156Publisher
OXFORD UNIV PRESS
DOI: 10.1093/nar/gkaa207
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Funding
- National Institutes of Health [R01GM112882]
- National Science Foundation [1517507]
- National Science Foundation
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Cyclization of DNA with sticky ends is commonly used to measure DNA bendability as a function of length and sequence, but how its kinetics depend on the rotational positioning of the sticky ends around the helical axis is less clear. Here, we measured cyclization (looping) and decyclization (unlooping) rates (k(loop) and k(unloop)) of DNA with sticky ends over three helical periods (100-130 bp) using single-molecule fluorescence resonance energy transfer (FRET). k(loop) showed a nontrivial undulation as a function of DNA length whereas k(unloop) showed a clear oscillation with a period close to the helical turn of DNA (similar to 10.5 bp). The oscillation of k(unloop) was almost completely suppressed in the presence of gaps around the sticky ends. We explain these findings by modeling double-helical DNA as a twisted wormlike chain with a finite width, intrinsic curvature, and stacking interaction between the end base pairs. We also discuss technical issues for converting the FRET-based cyclization/decyclization rates to an equilibrium quantity known as the J factor that is widely used to characterize DNA bending mechanics.
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