Ribeiro F. A. L., Ferreira M. M. C., "QSAR model of the phototoxicity
of polycyclic aromatic hydrocarbons", J. Mol. Struct.-Theochem,
719(1-3),
191-200 (Apr 2005).
[Article.]
Abstract.
Quantitative Structure–Activity Relationship (QSAR) study of 67 polycyclic
aromatic hydrocarbons (PAHs) is performed and a prediction rule for the
phototoxicity of these compounds is proposed. The geometry of all PAHs
was optimized by semi-empirical method and used to calculate the following
electronic descriptors: the highest occupied molecular orbital energy (EHOMO),
the lowest unoccupied molecular orbital energy (ELUMO) and the
GAP (EHOMO-ELUMO) between them. The relationships
between these molecular descriptors and the photo-induced toxicity are
non-linear, and Gaussian type functions were used to linearize them. The
data set was autoscaled and partial least squares (PLS) with leave-one-out
cross-validation was used for building the regression model. After the
model was validated, the phototoxicity was predicted for a set of molecules
in which experimental measurements are unknown. Pentaphene, benzo[b]chrysene
and dibenz[a.j]anthracene are among the compounds potentially phototoxic
as predicted by the model. A new GAP range (7.2±0.7 eV) is proposed
for the classification of phototoxic compounds, and a larger cutoff suggested
for the normalized lethal time as log(1/ALT)<=2.95.
Keywords.
QSAR; PLS; PAH; Phototoxicity; PAHs.
Keywords Plus.