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Left handed DNA in synthetic and topologically constrained form V DNA and its implications in protein recognition
Authors:Y. S. Shouche  P. K. Latha  N. Ramesh  K. Majumder  V. Mandyan  Samir K. Brahmachari
Affiliation:(1) Molecular Biophysics Unit, Indian Institute of Science, 560012 Bangalore, India
Abstract:We have investigated structural transitions in Poly(dG-dC) and Poly(dG-Me5dC) in order to understand the exact role of cations in stabilizing left-handed helical structures in specific sequences andthe biological role, if any, of these structures. From a novel temperature dependent Z ⇌ B transition it has been shown that a minor fluctuation in Na+ concentration at ambient temperature can bring about B to Z transition. Forthe first time, wehave observed a novel Z⇌B⇌Zuble transition in poly(dG-Me5dC) as the Na+ concentration is gradually increased. This suggests that a minor fluctuation in Na+ concentration in conjunction with methylation may transform small stretches of CG sequences from one conformational state to another. These stretches could probably serve as sites for regulation. Supercoiled formV DNA reconstituted from pBR322 and pβG plasmids have been studied as model systems, in order to understand the nature and role of left-handed helical conformation in natural sequences. A large portion of DNA in form V, obtained by reannealing the two complementary singlestranded circles is forced to adopt left-handed double helical structure due to topological constraints (L k = 0). Binding studies with Z-DNA specific antibody and spectroscopic studies confirm the presence of left-handed Z-structure in the pβG and pβR322 form V DNA. Cobalt hexamine chloride, which induces Z-form in Poly(dG-dC) stabilizes the Z-conformation in form V DNA even in the non-alternating purine-pyrimidine sequences. A reverse effect is observed with ethidium bromide. Interestingly, both topoisomerase I and II (from wheat germ) act effectively on form V DNA to give rise to a species having an electrophoretic mobility on agarose gel similar to that of open circular (form II) DNA. Whether this molecule is formed as a result of the left-handed helical segments of form V DNA undergoing a transition to the right-handed B-form during the topoisomerase action remains to be solved.
Keywords:Poly(dG-Me5C)  Z⇌  B⇌  Z  form V  topoisomerase
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