Every descriptor in the regression equation must be independent. The correlation
between each descriptor was calculated and is presented in form of a https://www.selleckchem.com/screening/pi3k-signaling-inhibitor-library.html Pearson correlation matrix in Table 2. As can be seen from these numbers all predictors have a pair correlation minimal covariance <0.5 which assures that any collinearity of predictors is not present. Table 1 reports the AA activity predicted by Eq. 1. A plot of the predicted activity versus the residual values was prepared to determine the existence of systematic errors in the model development (see Fig. B in the Supplementary file). The uniform distribution of residues indicates no systematic error (Belsley et al., 2005). The plots of observed AA activities versus those predicted 4EGI-1 by Eq. 1 together Selleckchem Dinaciclib with the corresponding predicted intervals are shown in Fig. C in the Supplementary file. Compound number 5 is out of 91% prediction threshold and exhibits high AA activity in contrast to other compounds of similar structure having low hydrophobic factor i.e., compounds 2, 4–6. This incidence may be explained by unique structural features. This plot proves that the model as a good descriptive power. Summing up the linear model seems to be adequately fit to the data, all predictors have P < 0.01 and one can conclude that all are independently associated with AA activity. Table 2 Pearson correlation matrix of the parameters used in this study
JGI4 PCR Hy JGI4 1.00 PCR 0.47 1.00 Hy 0.39 −0.22 1.00 JGI4 Mean topological charge index of order 4, PCR ratio of multiple path count over path count, Hy hydrophilic factor In an attempt to determine the utility of Eq. 1 as model of AA activity four validation analyses were carried out i.e., LOO, LMO, Y-scrambling, and external predictivity (Kiralj and Ferreira, 2009). In the field of statistical techniques the LOO and LMO are used for internal validation. From a theoretically 4��8C acceptable model the R 2 cannot have smaller values than
Q LOO 2 and Q LMO 2 or Q EXT 2 . Overall, the best model is achieved when Q LOO 2 ≤ R 2 ≥ Q LMO 2 and Q LOO 2 ≈ Q LMO 2 . Commonly, Q LOO 2 > 0.5 is considered as proof of the reasonably predictive capability of the equation. Q LOO 2 > 0.7 indicates the stable and predictive potential of the equation. Nevertheless a high Q LOO 2 value does not indicate a high predictive power of the model. On the other hand if R 2 < Q LOO 2 the model is overfitted. As can be seen from the statistics presented next to Eq. 1 in our case R 2 > Q LOO 2 , which means that our model is not overfitted. The LMO test is usually used to verify results obtained from the LOO test. In the Q LMO 2 procedure ten iterations were performed with five molecules left out in each iteration (e.g., tenfold, 80/20 cross validation) (Kiralj and Ferreira, 2009; Tropsha, 2010). The results of the LMO test are collected in Table 3.
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