E. M. Su Et Al. , "3D Biostructure Visualisation Using 4D QSAR Model for SubstituteUreas Binding at the Raf 1 Kinase Receptor Site," International Journal of Innovative Studies in Sciences and Engineering Technology , vol.2, no.12, pp.67-75, 2016
Su, E. M. Et Al. 2016. 3D Biostructure Visualisation Using 4D QSAR Model for SubstituteUreas Binding at the Raf 1 Kinase Receptor Site. International Journal of Innovative Studies in Sciences and Engineering Technology , vol.2, no.12 , 67-75.
Su, E. M., Türkmenoğlu, B., & Güzel, Y., (2016). 3D Biostructure Visualisation Using 4D QSAR Model for SubstituteUreas Binding at the Raf 1 Kinase Receptor Site. International Journal of Innovative Studies in Sciences and Engineering Technology , vol.2, no.12, 67-75.
Su, Ekrem, BURÇİN TÜRKMENOĞLU, And Yahya Güzel. "3D Biostructure Visualisation Using 4D QSAR Model for SubstituteUreas Binding at the Raf 1 Kinase Receptor Site," International Journal of Innovative Studies in Sciences and Engineering Technology , vol.2, no.12, 67-75, 2016
Su, Ekrem M. Et Al. "3D Biostructure Visualisation Using 4D QSAR Model for SubstituteUreas Binding at the Raf 1 Kinase Receptor Site." International Journal of Innovative Studies in Sciences and Engineering Technology , vol.2, no.12, pp.67-75, 2016
Su, E. M. Türkmenoğlu, B. And Güzel, Y. (2016) . "3D Biostructure Visualisation Using 4D QSAR Model for SubstituteUreas Binding at the Raf 1 Kinase Receptor Site." International Journal of Innovative Studies in Sciences and Engineering Technology , vol.2, no.12, pp.67-75.
@article{article, author={Ekrem Mesut Su Et Al. }, title={3D Biostructure Visualisation Using 4D QSAR Model for SubstituteUreas Binding at the Raf 1 Kinase Receptor Site}, journal={International Journal of Innovative Studies in Sciences and Engineering Technology}, year=2016, pages={67-75} }