(a) AP2/EREBP TF (b) IHSAPDTM-BS; (c) IRPAPDTM-BS; (d) IOFAPBTM-BS; and (e) IDNAPDTM-BS.</p
<p>Free energy landscape based on the first two eigen vectors from the simulation trajectories of mo...
<p>The Distribution of the Predicted Binding Free Energies Based on SPMFEP for Binders and Non-Binde...
<p><b>A</b>: Free energy. <b>B</b>: Energy contribution . <b>C</b>: Entropy contribution . Two dimen...
A. The free energy landscape for RBD/RNA using Qf and PC0 as the two order parameters. B. The free e...
<p>Free energy landscapes (in kcal mol<sup>−1</sup>) and lowest-free-energy structures at basins for...
(a) AP2/EREBP TF; (b) IHSAPDTM-BS; (c) IRPAPDTM-BS; (d) IDNAPDTM-BS; and (e) IOFAPBTM-BS.</p
<p>The horizontal coordinates are mode categories, and the longitudinal coordinates are the Gibbs fr...
<p>The schematic shows the free energy landscape for a case in which differences in affinities are e...
<p>2D-free energy profiles as a function of (A) and , (B) and , (C) and , (D) and . measures th...
(a) IHSAPDTM-BS; (b) IRPAPDTM-BS; (c) IDNAPDTM-BS; and (d) IOFAPBTM-BS complexes.</p
<p>Typical structures of loosely bound state (left structure), transition state (middle structure), ...
<p>(A) Density of the data on the plane. There are six basins (a to f) in the density landscape. (B...
<p>The unit of the free energy is kcal/mol. Multiple representative structures are given for the fir...
Figure S10. The two-dimensional free energy landscape (FEL) based on RMSD and Rg on 200ns simulation...
A. The free energy landscape for RBD plotted using Qf and PC0 as the two order parameters. Qf is the...
<p>Free energy landscape based on the first two eigen vectors from the simulation trajectories of mo...
<p>The Distribution of the Predicted Binding Free Energies Based on SPMFEP for Binders and Non-Binde...
<p><b>A</b>: Free energy. <b>B</b>: Energy contribution . <b>C</b>: Entropy contribution . Two dimen...
A. The free energy landscape for RBD/RNA using Qf and PC0 as the two order parameters. B. The free e...
<p>Free energy landscapes (in kcal mol<sup>−1</sup>) and lowest-free-energy structures at basins for...
(a) AP2/EREBP TF; (b) IHSAPDTM-BS; (c) IRPAPDTM-BS; (d) IDNAPDTM-BS; and (e) IOFAPBTM-BS.</p
<p>The horizontal coordinates are mode categories, and the longitudinal coordinates are the Gibbs fr...
<p>The schematic shows the free energy landscape for a case in which differences in affinities are e...
<p>2D-free energy profiles as a function of (A) and , (B) and , (C) and , (D) and . measures th...
(a) IHSAPDTM-BS; (b) IRPAPDTM-BS; (c) IDNAPDTM-BS; and (d) IOFAPBTM-BS complexes.</p
<p>Typical structures of loosely bound state (left structure), transition state (middle structure), ...
<p>(A) Density of the data on the plane. There are six basins (a to f) in the density landscape. (B...
<p>The unit of the free energy is kcal/mol. Multiple representative structures are given for the fir...
Figure S10. The two-dimensional free energy landscape (FEL) based on RMSD and Rg on 200ns simulation...
A. The free energy landscape for RBD plotted using Qf and PC0 as the two order parameters. Qf is the...
<p>Free energy landscape based on the first two eigen vectors from the simulation trajectories of mo...
<p>The Distribution of the Predicted Binding Free Energies Based on SPMFEP for Binders and Non-Binde...
<p><b>A</b>: Free energy. <b>B</b>: Energy contribution . <b>C</b>: Entropy contribution . Two dimen...
DOI
Add to ORKG