From 2015 to 2023: How Machine Learning Aids Natural Product Analysis
It tackles data complexity in natural product analysis for chemists, but is incremental as it reviews existing strategies.
This review addresses the challenges of analyzing natural products with conventional chemistry by proposing a computational framework that integrates machine learning for qualitative and quantitative analysis, aiming to transform the field.
In recent years, conventional chemistry techniques have faced significant challenges due to their inherent limitations, struggling to cope with the increasing complexity and volume of data generated in contemporary research endeavors. Computational methodologies represent robust tools in the field of chemistry, offering the capacity to harness potent machine-learning models to yield insightful analytical outcomes. This review delves into the spectrum of computational strategies available for natural product analysis and constructs a research framework for investigating both qualitative and quantitative chemistry problems. Our objective is to present a novel perspective on the symbiosis of machine learning and chemistry, with the potential to catalyze a transformation in the field of natural product analysis.