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Advancing Drug Discovery via Artificial Intelligence

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1 Advancing Drug Discovery via Artificial Intelligence
H.C. Stephen Chan, Hanbin Shan, Thamani Dahoun, Horst Vogel, Shuguang Yuan  Trends in Pharmacological Sciences  Volume 40, Issue 8, Pages (August 2019) DOI: /j.tips Copyright © 2019 Elsevier Ltd Terms and Conditions

2 Figure 1 Key Figure. A Representative Pipeline of Drug Discovery.
The drug discovery process comprises several major steps that include identifying compounds by screening compound collections via primary assays, such as high through-put screening in vitro, and secondary assays that include counter-screens and ADMET (absorption, distribution, metabolism, excretion, and toxicity) studies. Structure–activity relationship (SAR) and in silico studies in combination with cellular functional tests are used in an iterative cycle to improve the functional properties of the drug candidates. New drug candidates with desired characteristics are synthesized via organic synthesis. The selected drug candidate which has now passed all preclinical tests successfully is given to human patients in a clinical trial. Trends in Pharmacological Sciences  , DOI: ( /j.tips ) Copyright © 2019 Elsevier Ltd Terms and Conditions

3 Figure 2 Schematic of Monte Carlo Tree Search (MCTS) Methodology.
(A) MCTS searches by iterating over four phases. In the selection phase (1), the most urgent node for analysis is chosen on the basis of the current position values. In the second phase (2) this node may be expanded by processing molecules of position A with the expansion procedure, which leads to new positions B and C being added to the tree. The most promising new position is then chosen, and a rollout phase (3) is performed by randomly sampling transformations from the rollout policy until all molecules are solved or a specified depth is exceeded. In the update phase (4), the position values are updated in the current branch to reflect the result of the rollout. (B) Expansion procedure. First, the molecule A for retroanalysis is converted to a fingerprint and fed into the policy network, which returns a probability distribution over all possible transformations (T1 to Tn). Only k the most probable transformations are then applied to molecule A. This yields the reactants necessary to make A, and thus complete the set of reactions R1 to Rk. For each reaction, the reaction prediction is performed using the in-scope filter, returning a probability score. Improbable reactions are then filtered out, which leads to the list of admissible actions and corresponding precursor positions B and C. Figure modified, with permission, from [50]. Abbreviation: ECFP4, extended-connectivity fingerprint. Trends in Pharmacological Sciences  , DOI: ( /j.tips ) Copyright © 2019 Elsevier Ltd Terms and Conditions

4 Figure I Types of Artificial Intelligence (AI) and Applications.
(A) Schematic showing the relationship between AI, machine learning, and deep learning. (B) Schematic showing the diverse applications of AI in different areas. Trends in Pharmacological Sciences  , DOI: ( /j.tips ) Copyright © 2019 Elsevier Ltd Terms and Conditions

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