L. Meireles Et Al. , "Pre-existing soft modes of motion uniquely defined by native contact topology facilitate ligand binding to proteins," PROTEIN SCIENCE , vol.20, no.10, pp.1645-1658, 2011
Meireles, L. Et Al. 2011. Pre-existing soft modes of motion uniquely defined by native contact topology facilitate ligand binding to proteins. PROTEIN SCIENCE , vol.20, no.10 , 1645-1658.
Meireles, L., Gur, M., BAKAN, A., & BAHAR, I., (2011). Pre-existing soft modes of motion uniquely defined by native contact topology facilitate ligand binding to proteins. PROTEIN SCIENCE , vol.20, no.10, 1645-1658.
Meireles, Lidio Et Al. "Pre-existing soft modes of motion uniquely defined by native contact topology facilitate ligand binding to proteins," PROTEIN SCIENCE , vol.20, no.10, 1645-1658, 2011
Meireles, Lidio Et Al. "Pre-existing soft modes of motion uniquely defined by native contact topology facilitate ligand binding to proteins." PROTEIN SCIENCE , vol.20, no.10, pp.1645-1658, 2011
Meireles, L. Et Al. (2011) . "Pre-existing soft modes of motion uniquely defined by native contact topology facilitate ligand binding to proteins." PROTEIN SCIENCE , vol.20, no.10, pp.1645-1658.
@article{article, author={Lidio Meireles Et Al. }, title={Pre-existing soft modes of motion uniquely defined by native contact topology facilitate ligand binding to proteins}, journal={PROTEIN SCIENCE}, year=2011, pages={1645-1658} }