BHANJA KK und PATRA N, 2025. Identification of Novel Fourth-Generation Allosteric Inhibitors Targeting Inactive State of EGFR T790 M/L858 R/C797 S and T790 M/L858 R Mutations: A Combined Machine Learning and Molecular Dynamics Approach. The journal of physical chemistry. B. 10 April 2025. Vol. 129, no. 14, p. 3610-3610. DOI 10.1021/acs.jpcb.4 c07651.

Bhanja KK, Patra N, 2025. Identification of Novel Fourth-Generation Allosteric Inhibitors Targeting Inactive State of EGFR T790 M/L858 R/C797 S and T790 M/L858 R Mutations: A Combined Machine Learning and Molecular Dynamics Approach. The journal of physical chemistry. B 129, 3610-3610. https://doi.org/10.1021/acs.jpcb.4 c07651

Bhanja KK, & Patra N. (2025). Identification of Novel Fourth-Generation Allosteric Inhibitors Targeting Inactive State of EGFR T790 M/L858 R/C797 S and T790 M/L858 R Mutations: A Combined Machine Learning and Molecular Dynamics Approach. The Journal of Physical Chemistry. B, 129(14), 3610-3610. https://doi.org/10.1021/acs.jpcb.4 c07651

Bhanja KK, Patra N (2025) Identification of Novel Fourth-Generation Allosteric Inhibitors Targeting Inactive State of EGFR T790 M/L858 R/C797 S and T790 M/L858 R Mutations: A Combined Machine Learning and Molecular Dynamics Approach.. The journal of physical chemistry. B 129:3610-3610. https://doi.org/10.1021/acs.jpcb.4 c07651

Bhanja KK/ Patra N, Identification of Novel Fourth-Generation Allosteric Inhibitors Targeting Inactive State of EGFR T790 M/L858 R/C797 S and T790 M/L858 R Mutations: A Combined Machine Learning and Molecular Dynamics Approach., The journal of physical chemistry. B 2025, 3610-3610.