Deep learning approaches for de novo drug design: An overview

Mingyang Wang; Zhe Wang; Huiyong Sun; Jike Wang; Chao Shen; Gaoqi Weng; Xin Chai; Honglin Li; Dongsheng Cao; Tingjun Hou

doi:10.1016/j.sbi.2021.10.001

Deep learning approaches for de novo drug design: An overview

Mingyang Wang, Zhe Wang, Huiyong Sun, Jike Wang, Chao Shen, Gaoqi Weng, Xin Chai, Honglin Li, Dongsheng Cao, Tingjun Hou

Research output: Contribution to journal › Review article › peer-review

104 Scopus citations

Abstract

De novo drug design is the process of generating novel lead compounds with desirable pharmacological and physiochemical properties. The application of deep learning (DL) in de novo drug design has become a hot topic, and many DL-based approaches have been developed for molecular generation tasks. Generally, these approaches were developed as per four frameworks: recurrent neural networks; encoder-decoder; reinforcement learning; and generative adversarial networks. In this review, we first introduced the molecular representation and assessment metrics used in DL-based de novo drug design. Then, we summarized the features of each architecture. Finally, the potential challenges and future directions of DL-based molecular generation were prospected.

Original language	English
Pages (from-to)	135-144
Number of pages	10
Journal	Current Opinion in Structural Biology
Volume	72
DOIs	https://doi.org/10.1016/j.sbi.2021.10.001
State	Published - Feb 2022
Externally published	Yes

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10.1016/j.sbi.2021.10.001

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title = "Deep learning approaches for de novo drug design: An overview",

abstract = "De novo drug design is the process of generating novel lead compounds with desirable pharmacological and physiochemical properties. The application of deep learning (DL) in de novo drug design has become a hot topic, and many DL-based approaches have been developed for molecular generation tasks. Generally, these approaches were developed as per four frameworks: recurrent neural networks; encoder-decoder; reinforcement learning; and generative adversarial networks. In this review, we first introduced the molecular representation and assessment metrics used in DL-based de novo drug design. Then, we summarized the features of each architecture. Finally, the potential challenges and future directions of DL-based molecular generation were prospected.",

author = "Mingyang Wang and Zhe Wang and Huiyong Sun and Jike Wang and Chao Shen and Gaoqi Weng and Xin Chai and Honglin Li and Dongsheng Cao and Tingjun Hou",

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T2 - An overview

AU - Wang, Mingyang

AU - Wang, Zhe

AU - Sun, Huiyong

AU - Wang, Jike

AU - Shen, Chao

AU - Weng, Gaoqi

AU - Chai, Xin

AU - Li, Honglin

AU - Cao, Dongsheng

AU - Hou, Tingjun

PY - 2022/2

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N2 - De novo drug design is the process of generating novel lead compounds with desirable pharmacological and physiochemical properties. The application of deep learning (DL) in de novo drug design has become a hot topic, and many DL-based approaches have been developed for molecular generation tasks. Generally, these approaches were developed as per four frameworks: recurrent neural networks; encoder-decoder; reinforcement learning; and generative adversarial networks. In this review, we first introduced the molecular representation and assessment metrics used in DL-based de novo drug design. Then, we summarized the features of each architecture. Finally, the potential challenges and future directions of DL-based molecular generation were prospected.

AB - De novo drug design is the process of generating novel lead compounds with desirable pharmacological and physiochemical properties. The application of deep learning (DL) in de novo drug design has become a hot topic, and many DL-based approaches have been developed for molecular generation tasks. Generally, these approaches were developed as per four frameworks: recurrent neural networks; encoder-decoder; reinforcement learning; and generative adversarial networks. In this review, we first introduced the molecular representation and assessment metrics used in DL-based de novo drug design. Then, we summarized the features of each architecture. Finally, the potential challenges and future directions of DL-based molecular generation were prospected.

UR - https://www.scopus.com/pages/publications/85119430968

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DO - 10.1016/j.sbi.2021.10.001

M3 - 文献综述

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AN - SCOPUS:85119430968

SN - 0959-440X

VL - 72

SP - 135

EP - 144

JO - Current Opinion in Structural Biology

JF - Current Opinion in Structural Biology

ER -

Deep learning approaches for de novo drug design: An overview

Abstract

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