Author:
Li Chuan,Li Lin,Petukh Marharyta,Alexov Emil
Abstract
AbstractThis review outlines the recent progress made in developing
more accurate and efficient solutions to model electrostatics
in systems comprised of bio-macromolecules and nanoobjects,
the last one referring to objects that do not have biological
function themselves but nowadays are frequently used
in biophysical and medical approaches in conjunction with
bio-macromolecules. The problem of modeling macromolecular
electrostatics is reviewed from two different angles: as a
mathematical task provided the specific definition of the system
to be modeled and as a physical problem aiming to better
capture the phenomena occurring in the real experiments. In
addition, specific attention is paid to methods to extend the
capabilities of the existing solvers to model large systems toward
applications of calculations of the electrostatic potential
and energies in molecular motors, mitochondria complex,
photosynthetic machinery and systems involving large nanoobjects.
Subject
Applied Mathematics,Computational Mathematics,Mathematical Physics,Molecular Biology,Biophysics
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