| dc.description.abstract | In all the property of molecular which can significantly influence a
compound's biological activity, in the initial stages of drug discovery, aqueous
solubility is likely a highlight amongst the most central and consideration. Two
important elements that influence a medication's oral bioavailability are aqueous
solubility and membrane permeability. In view of the significance of aqueous
solubility, a lot of attempts have been used to creating dependable models to
forecast this physiochemical property. Though some advancement has been made
and a lot of models have been developed, it is presumed that exact and
dependable aqueous models focused to anticipate the dissolvability of drug-like
molecules have not happened. Based on the principle of molecular similarity which
states that structurally similar chemical compounds will very likely have similar
aqueous solubility, this research is conducted to construct a predictive model for
identifying the drug solubility by molecular structure from ESOL database. The
model developed the relation of aqueous solubility and their structure-based
descriptors. The family of generalized linear model was successfully built and
compared each type of model with the others. Finally, these models show the high
predictive performances on both training and test set, suggesting that these
models are reliable in predicting the relationship between the structures of drug
compounds and their aqueous solubility.
Keywords:
Generalized linear model
Aqueous solubility
Drug discovery
Molecular structure
Machine Learning | en_US |
