posted on 2013-08-13, 00:00authored byFei Xia, Dudu Tong, Lanyuan Lu
A computational method
called the progressive fluctuation matching (PFM) is developed for
constructing robust heterogeneous anisotropic network models (HANMs)
for biomolecular systems. An HANM derived through the PFM approach
consists of harmonic springs with realistic positive force constants,
and yields the calculated B-factors that are basically identical to
the experimental ones. For the four tested protein systems including
crambin, trypsin inhibitor, HIV-1 protease, and lysozyme, the root-mean-square
deviations between the experimental and the computed B-factors are
only 0.060, 0.095, 0.247, and 0.049 Å2, respectively,
and the correlation coefficients are 0.99 for all. By comparing the
HANM/ANM normal modes to their counterparts derived from both an atomistic
force field and an NMR structure ensemble, it is found that HANM may
provide more accurate results on protein dynamics.