Application and teaching of computer molecular simulation embedded technology and artificial intelligence in drug research and development

Chen Xiaoling; Zhang Junmin; Zhao Quanyi; Ding Li; Wu Zhengrong; Jia Zhong; He Dian

doi:10.1515/biol-2022-0675

Open Life Sciences (Aug 2023)

Application and teaching of computer molecular simulation embedded technology and artificial intelligence in drug research and development

Chen Xiaoling,
Zhang Junmin,
Zhao Quanyi,
Ding Li,
Wu Zhengrong,
Jia Zhong,
He Dian

Affiliations

Chen Xiaoling: Materia Medica Development Group, Institute of Medicinal Chemistry, Lanzhou University School of Pharmacy, Lanzhou730000, China
Zhang Junmin: Materia Medica Development Group, Institute of Medicinal Chemistry, Lanzhou University School of Pharmacy, Lanzhou730000, China
Zhao Quanyi: Materia Medica Development Group, Institute of Medicinal Chemistry, Lanzhou University School of Pharmacy, Lanzhou730000, China
Ding Li: Materia Medica Development Group, Institute of Medicinal Chemistry, Lanzhou University School of Pharmacy, Lanzhou730000, China
Wu Zhengrong: Materia Medica Development Group, Institute of Medicinal Chemistry, Lanzhou University School of Pharmacy, Lanzhou730000, China
Jia Zhong: Materia Medica Development Group, Institute of Medicinal Chemistry, Lanzhou University School of Pharmacy, Lanzhou730000, China
He Dian: Materia Medica Development Group, Institute of Medicinal Chemistry, Lanzhou University School of Pharmacy, Lanzhou730000, China

DOI: https://doi.org/10.1515/biol-2022-0675
Journal volume & issue: Vol. 18, no. 1
pp. 773 – 80

Abstract

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With the continuous development of the pharmaceutical industry, people have always paid attention to the safety and effectiveness of drugs, including innovative drugs and generic drugs. For pharmaceutical companies as manufacturers, drug development is a very lengthy process that requires high costs, millions of man-hours, thousands of trials, and the mobilization of hundreds of researchers. Therefore, efforts need to be made to develop drugs with high safety and effectiveness. Drug research and development plays an important role today. Based on this, this article applied computer molecular simulation embedded technology and artificial intelligence technology to drug research and development. First, the problems faced in the research and development of anti-inflammatory disease-dependent tumor drugs were introduced, and then the applications of computer molecular simulation embedded technology and artificial intelligence technology in drug research and development were analyzed. Subsequently, the application of artificial intelligence in drug research and development teaching was analyzed, and a teaching system based on computer molecular simulation embedded technology and artificial intelligence was designed. Finally, the application effects of computer molecular simulation embedded technology and artificial intelligence technology were analyzed, and a feasible conclusion was drawn. The use of computer molecular simulation embedded technology and artificial intelligence technology can greatly improve the efficiency of drug research and development, and the research and development safety of imatinib mesylate has been improved by 7%. On the other hand, it can improve students’ learning interest and stimulate their learning interest, and students’ drug research and development capabilities have been improved. Drug research and development for inflammatory-dependent tumors has good application prospects.

Published in Open Life Sciences

ISSN: 2391-5412 (Online)
Publisher: De Gruyter
Country of publisher: Poland
LCC subjects: Science: Biology (General)
Website: http://www.degruyter.com/view/j/biol

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Abstract

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