On February 29, 2008, Nair, Pramod C.; Sobhia, M. Elizabeth published an article.Electric Literature of 5709-67-1 The title of the article was Comparative QSTR studies for predicting mutagenicity of nitro compounds. And the article contained the following:
Mutagenicity and carcinogenicity are toxicol. endpoints which pose a great concern being the major determinants of cancers and tumors. Nitroarenes possess genotoxic properties as they can form various electrophilic intermediates and adducts with biol. systems. Different QSTR techniques were employed to develop models for the prediction of mutagenicity of nitroarenes using a diverse set of 197 nitro aromatic and hetero aromatic mols. The 2D and 3D QSTR methods used for model development gave statistically significant results. The alignment for 3D methods was obtained by maximum common substructures (MCS) approach, by taking the most mutagenic mol. of the dataset as the template. All the QSTR models were developed with the same set of training and test set mols. The 3D contours and 2D contribution maps along with mol. fingerprints provide useful information about the mutagenic potentials of the mols. The GFA based model shows thermodn. and topol. descriptors play an important role in characterizing mutagenicity of nitroarenes. At.-level thermodn. descriptor namely AlogP throws light on hydrophobic features and helps to understand the bilinear model. Topol. aspects of these classes of compounds were depicted by the fragment fingerprints and Balaban indexes obtained from HQSAR and GFA models, resp. The predictive abilities of 2D and 3D QSTR models may be useful as a vibrant predictive tool to screen out mutagenic nitroarenes and design safer non-mutagenic nitro compounds The experimental process involved the reaction of 2-Nitro-1H-benzo[d]imidazole(cas: 5709-67-1).Electric Literature of 5709-67-1
The Article related to mutagenicity nitroarene structure activity relationship, Toxicology: Methods (Including Analysis) and other aspects.Electric Literature of 5709-67-1
Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem