A good predictive ability, with an \( r^2_\textpre = 0 60 7 \),

A good predictive ability, with an \( r^2_\textpre = 0. 60 7 \), for the compounds in the test set was obtained in this calibration step. Table 2 reports that the predicted values fall close to the observed biological activity value, deviating by less than one logarithmic unit. The β2 CoMFA steric and electrostatic fields from the final non-cross-validated analysis are plotted selleck compound in Figs. 4b and 5b respectively. The most active compound, 20, was treated as the reference molecule. The graphical interpretation of the field contribution of the steric contour map is shown in Fig. 4b. The steric contour map shows three yellow regions surrounding the phenyl unit in the NHSO2Ph

group, and a small green at the para

position on the same ring. This indicates that it is preferable to reduce the steric bulk due to the Ph group. The Tozasertib manufacturer presence of a simple thiophen ring, as in many other molecules in this series, is preferable for β2 activity. A very large yellow contour is noted near the C7 of the indole ring in Fig. 4b, indicating that the steric bulk should be reduced for improved β2 activity. The CoMFA electrostatic contour map displays a large blue region surrounding the SO2Ph group and two small red regions in close proximity, suggesting that a strong reduction in the electronegative groups is preferred in this region. There are two small blue regions and one small red region at the C7 of the indole ring of the reference compound. The distribution range of blue selleck chemicals is higher than that of red, indicating that electropositive groups in this region are very important for the β2 biological activity. CoMFA of the β3-adrenoceptor The β3 CoMFA analysis based on the fit atom alignment yielded acceptable cross-validated (\( r^2_\textcv = 0. 5 5 8 \)) and conventional results (\( r^2 = 0. 9 9 4��8C 5,F – \texttest

value = 3 10. 7 1 7 \)), with the optimal number of components found to be six. In this model, steric and electrostatic fields contribute to the QSAR equation by 40.1% and 59.9%, respectively. The high bootstrapped (10 sampling) \( r^2_\textbs \) value of 0.999 (SEE = 0.033, std dev = 0.001) was found. Compounds 8, 10, 14, 18, and 20 (test set) were used to evaluate the predictive power of this CoMFA model. The predicted versus the actual values of biological activities obtained from the analysis are plotted in Fig. 3c. The β3 CoMFA model shows a very good predictive ability, with \( r^2_\textpre = 0. 7 5 8 \) for the compounds in the test set, as obtained for the calibration steps. Table 2 shows that the predicted values fall close to the observed biological activity value, deviating by less than one logarithmic unit. The steric and electrostatic contour maps obtained from the β3 CoMFA model are shown in Figs. 4c and 5c, respectively, along with compound 16. In Fig.

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