NACDDB - The Web Server for DNA,RNA,and Hybrids Circular Dichroism Structure

Effect of C(60) fullerene on the duplex formation of i-motif DNA with complementary DNA in solution

Overview of Jin KS et al.

AuthorsJin KS  Shin SR  Ahn B  Jin S  Rho Y  Kim H  Kim SJ  Ree M  
AffiliationPohang Accelerator Laboratory   Department of Chemistry   National Research Lab for Polymer Synthesis and Physics   Center for Electro-Photo Behaviors in Advanced Molecular Systems   Division of Advanced Materials Science   Polymer Research Institute   and BK School of Molecular Science   Pohang University of Science and Technology (POSTECH)   Pohang 790-784   Republic of Korea.  
JournalJ Phys Chem B
Year 2010

Abstract


The structural effects of fullerene on i-motif DNA were investigated by characterizing the structures of fullerene-free and fullerene-bound i-motif DNA, in the presence of cDNA and in solutions of varying pH, using circular dichroism and synchrotron small-angle X-ray scattering. To facilitate a direct structural comparison between the i-motif and duplex structures in response to pH stimulus, we developed atomic scale structural models for the duplex and i-motif DNA structures, and for the C(60)/i-motif DNA hybrid associated with the cDNA strand, assuming that the DNA strands are present in an ideal right-handed helical conformation. We found that fullerene shifted the pH-induced conformational transition between the i-motif and the duplex structure, possibly due to the hydrophobic interactions between the terminal fullerenes and between the terminal fullerenes and an internal TAA loop in the DNA strand. The hybrid structure showed a dramatic reduction in cyclic hysteresis.