Electrostatics of strongly charged biological polymers: ion-mediated interactions and self-organization in nucleic acids and proteins
Charges on biological polymers in physiologically relevant solution conditions are strongly
screened by water and salt solutions containing counter-ions. However, the entropy of these …
screened by water and salt solutions containing counter-ions. However, the entropy of these …
Electrostatics of strongly charged biological polymers: ion-mediated interactions and self-organization in nucleic acids and proteins.
GC Wong, L Pollack - Annual Review of Physical Chemistry, 2010 - europepmc.org
Charges on biological polymers in physiologically relevant solution conditions are strongly
screened by water and salt solutions containing counter-ions. However, the entropy of these …
screened by water and salt solutions containing counter-ions. However, the entropy of these …
Electrostatics of strongly charged biological polymers: ion-mediated interactions and self-organization in nucleic acids and proteins
GCL Wong, L Pollack - Annual review of physical …, 2010 - pubmed.ncbi.nlm.nih.gov
Charges on biological polymers in physiologically relevant solution conditions are strongly
screened by water and salt solutions containing counter-ions. However, the entropy of these …
screened by water and salt solutions containing counter-ions. However, the entropy of these …
Electrostatics of Strongly Charged Biological Polymers: Ion-Mediated Interactions and Self-Organization in Nucleic Acids and Proteins
GCL Wong, L Pollack - Annual Review of Physical Chemistry, 2010 - cir.nii.ac.jp
抄録< jats: p> Charges on biological polymers in physiologically relevant solution conditions
are strongly screened by water and salt solutions containing counter-ions. However, the …
are strongly screened by water and salt solutions containing counter-ions. However, the …