Computational Approaches in Drug Discovery and Design
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Publisher
Springer Singapore
Link
http://link.springer.com/content/pdf/10.1007/978-981-15-6815-2_1
Reference75 articles.
1. Adrian-Scotto M, Vasilescu D (2008) Quantum molecular modeling of glycyl-adenylate. J Biomol Struct Dyn 25(6):697–708
2. Amin AR, Kucuk O, Khuri FR, Shin DM (2009) Perspectives for cancer prevention with natural compounds. J Clin Oncol 27(16):2712
3. Aminpour M, Montemagno C, Tuszynski JA (2019) An overview of molecular modeling for drug discovery with specific illustrative examples of applications. Molecules 24(9):1693
4. An J, Lee DC, Law AH, Yang CL, Poon LL, Lau AS, Jones SJ (2009) A novel small-molecule inhibitor of the avian influenza H5N1 virus determined through computational screening against the neuraminidase. J Med Chem 52(9):2667–2672
5. Bagaria A, Jaravine V, Huang YJ, Montelione GT, Güntert P (2012) Protein structure validation by generalized linear model root-mean-square deviation prediction. Protein Sci 21(2):229–238
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