AI Article Synopsis
- Peak picking is essential in chromatography for identifying the start and end points of peaks, but accurately labeling these points has been challenging due to overlaps in real data.
- A new method has been developed to generate fake chromatograms that include clearly defined peak boundaries, allowing for better training of deep learning neural networks.
- The resulting peak-picking neural networks exceeded the performance of traditional software and matched the accuracy of skilled operators, highlighting the importance of these generated fake chromatograms for future advancements in peak picking technology.
Article Abstract
Finding peaks in chromatograms and determining their start and end points (peak picking) is a core task in chromatography based biotechnology. Construction of peak-picking neural networks by deep learning was, however, hampered from the preparation of exact peak-picked or "labeled" chromatograms since the exact start and end points were often unclear in overlapping peaks in real chromatograms. We present a design of a fake chromatogram generator, along with a method for deep learning of peak-picking neural networks. Fake chromatograms were generated by generation of fake peaks, random sampling of peak positions from feature distributions, and merging with real blank sample chromatograms. Information on the exact start and end points, as labeled on the fake chromatograms, were effective for training and evaluating peak-picking neural networks. The peak-picking neural networks constructed herein outperformed conventional peak-picking software and showed comparable performance with that of experienced operators for processing the widely targeted metabolome data. Results of this study indicate that generation of fake chromatograms would be crucial for developing peak-picking neural networks and a key technology for further improvement of peak picking neural networks.
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| http://dx.doi.org/10.1016/j.jbiosc.2020.09.013 | DOI Listing |
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