Add to ORKGABSTRACT: One of the fundamental problems in nucleic acids biophysics is to predict the different forces that stabilize nucleic acid tertiary folds. Here we provide a quantitative estimation and analysis for the forces between DNA helices in an ionic solution. Using the generalized Born model and the improved atomistic tightly binding ions model, we evaluate ion correlation and solvent polarization effects in interhelix interactions. The results suggest that hydration, Coulomb correlation and ion entropy act together to cause the repulsion and attraction between nucleic acid helices in Mg2+ and Mn2+ solutions, respectively. The theoretical predictions are consistent with experimental findings. Detailed analysis further suggests that solvent...
AbstractA recently developed tightly bound ion model can account for the correlation and fluctuation...
ABSTRACT A recently developed tightly bound ion model can account for the correlation and fluctuatio...
AbstractNucleic acids are highly charged polyanionic molecules; thus, the ionic conditions are cruci...
One of the fundamental problems in nucleic acids biophysics is to predict the different forces that ...
ABSTRACT Salt ions are essential for the folding of nucleic acids. We use the tightly bound ion (TBI...
AbstractSalt ions are essential for the folding of nucleic acids. We use the tightly bound ion (TBI)...
AbstractBy combining single-molecule magnetic tweezers and osmotic stress on DNA assemblies, we sepa...
ABSTRACT By combining single-molecule magnetic tweezers and osmotic stress on DNA assemblies, we sep...
Biological processes require DNA and RNA helices to pack together in specific interhelical orientati...
AbstractMetal ions play crucial roles in thermal stability and folding kinetics of nucleic acids. Fo...
ABSTRACT Metal ions play crucial roles in thermal stability and folding kinetics of nucleic acids. F...
The assembly of double stranded DNA helices with divalent manganese ion is favored by increasing tem...
ABSTRACT: Recently we presented a first-generation all-atom Drude polarizable force field for DNA ba...
When correlation effects are relatively weak, electrostatic interaction forces between cylindrical m...
We determined the free energy of DNA supercoiling as a function of the concentration of magnesium an...
AbstractA recently developed tightly bound ion model can account for the correlation and fluctuation...
ABSTRACT A recently developed tightly bound ion model can account for the correlation and fluctuatio...
AbstractNucleic acids are highly charged polyanionic molecules; thus, the ionic conditions are cruci...
One of the fundamental problems in nucleic acids biophysics is to predict the different forces that ...
ABSTRACT Salt ions are essential for the folding of nucleic acids. We use the tightly bound ion (TBI...
AbstractSalt ions are essential for the folding of nucleic acids. We use the tightly bound ion (TBI)...
AbstractBy combining single-molecule magnetic tweezers and osmotic stress on DNA assemblies, we sepa...
ABSTRACT By combining single-molecule magnetic tweezers and osmotic stress on DNA assemblies, we sep...
Biological processes require DNA and RNA helices to pack together in specific interhelical orientati...
AbstractMetal ions play crucial roles in thermal stability and folding kinetics of nucleic acids. Fo...
ABSTRACT Metal ions play crucial roles in thermal stability and folding kinetics of nucleic acids. F...
The assembly of double stranded DNA helices with divalent manganese ion is favored by increasing tem...
ABSTRACT: Recently we presented a first-generation all-atom Drude polarizable force field for DNA ba...
When correlation effects are relatively weak, electrostatic interaction forces between cylindrical m...
We determined the free energy of DNA supercoiling as a function of the concentration of magnesium an...
AbstractA recently developed tightly bound ion model can account for the correlation and fluctuation...
ABSTRACT A recently developed tightly bound ion model can account for the correlation and fluctuatio...
AbstractNucleic acids are highly charged polyanionic molecules; thus, the ionic conditions are cruci...