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  • DNA Bending Propensity in the Presence of Base Mismatches: Implications for DNA Repair

DNA Bending Propensity in the Presence of Base Mismatches: Implications for DNA Repair

Understanding how the human body recognizes damaged DNA and initiates repair fascinates Michael Feig, professor of biochemistry and molecular biology at Michigan State University. Feig studies the proteins MutS and MSH2-MSH6, which recognize defective DNA and initiate DNA repair. Natural DNA repair occurs when proteins like MutS (the primary protein responsible for recognizing a variety of DNA mismatches) scan the DNA, identify a defect, and recruit other enzymes to carry out the actual repair.

Results from computer simulations show that it is energetically less expensive to bend mismatch-containing, defective DNA (G:T, C:C, C:T, G:A, G:G, T:T, A:A, A+:C) vs. non-defective DNA (containing A:T or G:C base pairs). DNA repair mechanisms likely take advantage of this feature to detect defective DNA based on an increased bending propensity.

http://www.tacc.utexas.edu/news/feature-stories/2013/how-dna-repair-helps-prevent-cancer

http://pubs.acs.org/doi/abs/10.1021/jp403127a