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The kinetics of spontaneous DNA branch migration.
Authors:I G Panyutin and P Hsieh
Affiliation:Genetics and Biochemistry Branch, National Institute of Diabetes and Kidney and Digestive Diseases, National Institutes of Health, Bethesda, MD 20892.
Abstract:An important step in genetic recombination is DNA branch migration, the movement of the Holliday junction or exchange point between two homologous duplex DNAs. We have determined kinetic parameters of spontaneous branch migration as a function of temperature and ionic conditions. The branch migration substrates consist of two homologous duplex DNAs each having two single-strand tails at one end that are complementary to the corresponding single-strand tails of the other duplex. Upon rapid annealing of the two duplex DNAs, a four-stranded intermediate is formed that has a Holliday junction at one end of the duplexes. Branch migration to the opposite end of the duplexes results in complete strand exchange and formation of two duplex products. The rate of branch migration is exceedingly sensitive to the type of metal ions present. In magnesium, branch migration is quite slow with a step time, tau, equal to 300 msec at 37 degrees C. Surprisingly, branch migration in the absence of magnesium was 1000 times faster. Despite this difference in rates, apparent activation energies for the branch migration step in the presence and absence of magnesium are similar. Since metal ions have a profound effect on the structure of the Holliday junction, it appears that the structure of the branch point plays a key role in determining the rate of spontaneous DNA branch migration. We discuss the role of proteins in promoting the branch migration step during homologous recombination.
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