Hierarchical quantitative structure-activity relationships (HiQSARs) for the prediction of physicochemical and toxicological properties of chemicals using computed molecular descriptors

Abstract: Attempts have been made to formulate quantitative structure=activity relationships (QSARs) for the prediction of property/ bioactivity of chemicals from their experimental test data as well as properties that can be computed directly from molecular structure without the input of any other experimental property. Because both in drug design and hazard assessment of chemical scenarios relevant experimental data for property/ bioactivity estimation are not available for the majority of candidate chemicals, QSARs b… Show more

“…The details of this QSAR analysis has been published. [33] HiQSAR MODELING OF A DIVERSE SET OF 508 CHEMICAL MUTAGENS TS, TC, 3D, and QC descriptors for 508 structurally diverse chemicals were calculated and QSARs were developed hierarchically using the four types of descriptors. For details of calculations and model building, see ref.…”

Use of Graph Invariants in Quantitative Structure-Activity Relationship Studies

“…The details of this QSAR analysis has been published. [33] HiQSAR MODELING OF A DIVERSE SET OF 508 CHEMICAL MUTAGENS TS, TC, 3D, and QC descriptors for 508 structurally diverse chemicals were calculated and QSARs were developed hierarchically using the four types of descriptors. For details of calculations and model building, see ref.…”

Use of Graph Invariants in Quantitative Structure-Activity Relationship Studies