Computational Drug Discovery and Design

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During the WATsite analysis step, the production trajectory will
first be aligned to the reference which is the user input protein
structure, and saved into pdb format. Then, WATsite analysis will
be performed for predicting hydration site location based on water
density analysis, calculating entropy and enthalpy.

3.6 Hydration Site
Prediction with Ligand:
Water at Binding
Interface


In the first example, we performed hydration site prediction with
the presence of a bound inhibitor (KNI) for HIV-1 protease dis-
cussed in the introduction (PDB: 1HPX). After completion of
WATsite analysis, we can import the results through the “Import
WATsite Results” command under the WATsite menu, and select
the “WATsite.out” file which stores the directory to the location of
the prediction results (Fig.6a). Here, we want to investigate water
molecules at the binding interface between protein and ligand, so
we select “Protein,” “Ligand,” and “Hydration Site” to load into
PyMOL. The results of the example case of HIV-1 protease are
shown in Fig.6b. The crystal waters are all predicted, and the
interfacial water mediating the protein–ligand interaction via
hydrogen bonding is selected in Fig.6b.
The PyMOL viewer window shows the predicted hydration
sites in the protein binding site. The hydration sites are shown as
spheres and colored in this example based on theirΔGvalues in a
blue–white–red spectrum where blue indicates relatively lowΔG
values and red indicates relatively highΔGvalues. A hydration site
with a more positiveΔGvalue (darker red) indicates an unfavorable
environment of the water molecule in the binding site. Therefore, a

Fig. 5 Step 5of WATsite procedure to perform WATsite analysis


396 Ying Yang et al.

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