TY - JOUR
T1 - Free energy considerations for nucleic acids with dangling ends near a surface
T2 - Acoarse grained approach
AU - Ambia-Garrido, J.
AU - Vainrub, Arnold
AU - Montgomery Pettitt, B.
PY - 2011/8/17
Y1 - 2011/8/17
N2 - A coarse grained model for the thermodynamics of nucleic acid hybridization near surfaces has been extended and parameterized to consider the contribution of unpaired dangling ends. The parameters of the model differ when representing a double stranded DNA section or a single stranded DNA section. The thermodynamic effects of the possibility of different dangling end combinations were considered in the presence of different types of surfaces. Configurational sampling was achieved by the Metropolis Monte Carlo method. To gain a more complete picture of the free energy changes, an estimation of the conformational entropy was included. We find a strong thermodynamic effect for dangling mismatches due to sequence requirements when they are nearer the surface as opposed to being held away from the surface.
AB - A coarse grained model for the thermodynamics of nucleic acid hybridization near surfaces has been extended and parameterized to consider the contribution of unpaired dangling ends. The parameters of the model differ when representing a double stranded DNA section or a single stranded DNA section. The thermodynamic effects of the possibility of different dangling end combinations were considered in the presence of different types of surfaces. Configurational sampling was achieved by the Metropolis Monte Carlo method. To gain a more complete picture of the free energy changes, an estimation of the conformational entropy was included. We find a strong thermodynamic effect for dangling mismatches due to sequence requirements when they are nearer the surface as opposed to being held away from the surface.
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U2 - 10.1088/0953-8984/23/32/325101
DO - 10.1088/0953-8984/23/32/325101
M3 - Article
C2 - 21743128
AN - SCOPUS:80051535962
SN - 0953-8984
VL - 23
JO - Journal of Physics Condensed Matter
JF - Journal of Physics Condensed Matter
IS - 32
M1 - 325101
ER -