"Collective dynamics of HIV-1
reverse transcriptase"
I. Bahar, B. Erman,
R. L. Jernigan, A. R. Atilgan, & D. Covell J. Mol. Biol., 285, 1023-1037,
1999
ABSTRACT
In
order to study the inferences of structure for mechanism, the collective
motions of the retroviral reverse transcriptase HIV-1 RT (RT) are examined
using the Gaussian network model (GNM) of proteins. This model is particularly
suitable for elucidating the global dynamic characteristics of large proteins
such as the presently investigated heterodimeric RT comprising a total of 982
residues. Local packing density and coordination order of amino acid residues
is inspected by the GNM to determine the type and range of motions, both at the
residue level and on a global scale, such as the correlated movements of entire
subdomains. Of the two subunits, p66 and p51, forming the RT, only p66 has a
DNA-binding cleft and a functional polymerase active site. This difference in
the structure of the two subunits is shown here to be reflected in their
dynamic characteristics: only p66 has the potential to undergo large-scale
cooperative motions in the heterodimer, while p51 is essentially rigid. Taken
together, the global motion of the RT heterodimer is comprised of movements of
the p66 thumb subdomain perpendicular to those of the p66 fingers, accompanied
by anticorrelated fluctuations of the RNase H domain and p51 thumb, thus
providing information about the details of one processivity mechanism. A few
clusters of residues, generally distant in sequence but close in space, are
identified in the p66 palm and connection subdomains, which form the
hinge-bending regions that control the highly concerted motion of the
subdomains. These regions include the catalytically active site and the
non-nucleoside inhibitor binding pocket of p66 polymerase, as well as sites
whose mutations have been shown to impair enzyme activity. It is easily
conceivable that this hinge region, indicated by GNM analysis to play a
critical role in modulating the global motion, is locked into an inactive
conformation upon binding of an inhibitor. Comparative analysis of the dynamic
characteristics of the unliganded and liganded dimers indicates severe
repression of the mobility of the p66 thumb in RT's global mode, upon binding
of non-nucleoside inhibitors.
FIGURES
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