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• W4313244517 endingPage "157" @default.
• W4313244517 startingPage "157" @default.
• W4313244517 abstract "Natural products (NPs) have historically played a primary role in the discovery of small-molecule drugs. However, due to the advent of other methodologies and the drawbacks of NPs, the pharmaceutical industry has largely declined in interest regarding the screening of new drugs from NPs since 2000. There are many technical bottlenecks to quickly obtaining new bioactive NPs on a large scale, which has made NP-based drug discovery very time-consuming, and the first thorny problem faced by researchers is how to dereplicate NPs from crude extracts. Remarkably, with the rapid development of omics, analytical instrumentation, and artificial intelligence technology, in 2012, an efficient approach, known as tandem mass spectrometry (MS/MS)-based molecular networking (MN) analysis, was developed to avoid the rediscovery of known compounds from the complex natural mixtures. Then, in the past decade, based on the classical MN (CLMN), feature-based MN (FBMN), ion identity MN (IIMN), building blocks-based molecular network (BBMN), substructure-based MN (MS2LDA), and bioactivity-based MN (BMN) methods have been presented. In this paper, we review the basic principles, general workflow, and application examples of the methods mentioned above, to further the research and applications of these methods." @default.
• W4313244517 created "2023-01-06" @default.
• W4313244517 creator A5002318539 @default.
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• W4313244517 creator A5079878207 @default.
• W4313244517 creator A5080921318 @default.
• W4313244517 creator A5090535728 @default.
• W4313244517 date "2022-12-24" @default.
• W4313244517 modified "2023-10-01" @default.
• W4313244517 title "MS/MS-Based Molecular Networking: An Efficient Approach for Natural Products Dereplication" @default.
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