DenovoProfiling: A webserver for de novo generated molecule library profiling

DenovoProfiling: A webserver for de novo generated molecule library profiling

[Display omitted] Various deep learning-based architectures for molecular generation have been proposed for de novo drug design. The flourish of the de novo molecular generation methods and applications has created a great demand for the visualization and functional profiling for the de novo generat...

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Bibliographic Details
Published in:Computational and structural biotechnology journal Vol. 20; pp. 4082 - 4097
Main Authors: Liu, Zhihong, Du, Jiewen, Lin, Ziying, Li, Ze, Liu, Bingdong, Cui, Zongbin, Fang, Jiansong, Xie, Liwei
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2022
Research Network of Computational and Structural Biotechnology
Elsevier
Subjects:
De novo drug design
De novo molecule library
Deep learning
Library profiling
DDR1
De novo drug design
LSTM
HTS
De novo molecule library
PCA
Deep learning
SCA
RNN
GAN
FDR
VAE
FBDD
Library profiling
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Summary:[Display omitted] Various deep learning-based architectures for molecular generation have been proposed for de novo drug design. The flourish of the de novo molecular generation methods and applications has created a great demand for the visualization and functional profiling for the de novo generated molecules. An increasing number of publicly available chemogenomic databases sets good foundations and creates good opportunities for comprehensive profiling of the de novo library. In this paper, we present DenovoProfiling, a webserver dedicated to de novo library visualization and functional profiling. Currently, DenovoProfiling contains six modules: (1) identification & visualization module for chemical structure visualization and identify the reported structures, (2) chemical space module for chemical space exploration using similarity maps, principal components analysis (PCA), drug-like properties distribution, and scaffold-based clustering, (3) ADMET prediction module for predicting the ADMET properties of the de novo molecules, (4) molecular alignment module for three dimensional molecular shape analysis, (5) drugs mapping module for identifying structural similar drugs, and (6) target & pathway module for identifying the reported targets and corresponding functional pathways. DenovoProfiling could provide structural identification, chemical space exploration, drug mapping, and target & pathway information. The comprehensive annotated information could give users a clear picture of their de novo library and could guide the further selection of candidates for chemical synthesis and biological confirmation. DenovoProfiling is freely available at http://denovoprofiling.xielab.net.
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Zhihong Liu and Jiewen Du contributed equally to this work.
ISSN:2001-0370
2001-0370
DOI:10.1016/j.csbj.2022.07.045