A. The free energy landscape for RBD/RNA using Qf and PC0 as the two order parameters. B. The free energy landscape for the SUMO2/RBD/RNA complex using Qf and PC0 as the two order parameters. C. Representative structures for the three free energy basins in Figure A and B. (EPS)</p
For the RRMs and the RBD, the RNA dissociation is a two-step process: RNA dissociation from RRM2 is ...
<p>The plots are indicated by (a) PKR<sub>pp</sub>-eIF2α, (b) PKR<sub>pp</sub>-K3L, (c) PKR<sub>pp</...
<p><b>A-</b>O<sub>2</sub> free energy landscape obtained from the ILS calculations. Two isosurface c...
A. The free energy landscape for RBD plotted using Qf and PC0 as the two order parameters. Qf is the...
A. The 1D Free energy profile for RNA-free RBD and SUMO2/RBD complex using PC0 as the order paramete...
A. 1D free energy profiles for RNA dissociation from the RRMs (left), RBD (middle) and SUMO2/RBD com...
A. Clustering analysis for the predicted structures of the SUMO2/RBD complex using mutual Q (includi...
<p>The free energy contributions of the different structural elements calculated by Quickfold are pl...
<p>The points in the plots represent Rosetta generated protein structure models. In column 1 and 3, ...
Binding energy for SIM/SUMO2 complex. Additional potentials. Simulation methods: Equilibrum simulati...
<p>The unit of the free energy is kcal/mol. Multiple representative structures are given for the fir...
<p><i>Top panel</i>: The free energy landscape for three folding routes of leptin, (black), (blue)...
(A) βManAo and (B) βManAo-M3 complex. The βManAo-M3 complex had lower subset of energy to reach the ...
The binding energy (Kcal mol-1) is plotted versus DSite and DConf for each of the ssDBP–ssDNA (top, ...
<p>(A) Native complex, (B) R131W complex, (C) R131Q complex, and (D) R203C complex.</p
For the RRMs and the RBD, the RNA dissociation is a two-step process: RNA dissociation from RRM2 is ...
<p>The plots are indicated by (a) PKR<sub>pp</sub>-eIF2α, (b) PKR<sub>pp</sub>-K3L, (c) PKR<sub>pp</...
<p><b>A-</b>O<sub>2</sub> free energy landscape obtained from the ILS calculations. Two isosurface c...
A. The free energy landscape for RBD plotted using Qf and PC0 as the two order parameters. Qf is the...
A. The 1D Free energy profile for RNA-free RBD and SUMO2/RBD complex using PC0 as the order paramete...
A. 1D free energy profiles for RNA dissociation from the RRMs (left), RBD (middle) and SUMO2/RBD com...
A. Clustering analysis for the predicted structures of the SUMO2/RBD complex using mutual Q (includi...
<p>The free energy contributions of the different structural elements calculated by Quickfold are pl...
<p>The points in the plots represent Rosetta generated protein structure models. In column 1 and 3, ...
Binding energy for SIM/SUMO2 complex. Additional potentials. Simulation methods: Equilibrum simulati...
<p>The unit of the free energy is kcal/mol. Multiple representative structures are given for the fir...
<p><i>Top panel</i>: The free energy landscape for three folding routes of leptin, (black), (blue)...
(A) βManAo and (B) βManAo-M3 complex. The βManAo-M3 complex had lower subset of energy to reach the ...
The binding energy (Kcal mol-1) is plotted versus DSite and DConf for each of the ssDBP–ssDNA (top, ...
<p>(A) Native complex, (B) R131W complex, (C) R131Q complex, and (D) R203C complex.</p
For the RRMs and the RBD, the RNA dissociation is a two-step process: RNA dissociation from RRM2 is ...
<p>The plots are indicated by (a) PKR<sub>pp</sub>-eIF2α, (b) PKR<sub>pp</sub>-K3L, (c) PKR<sub>pp</...
<p><b>A-</b>O<sub>2</sub> free energy landscape obtained from the ILS calculations. Two isosurface c...
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