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Machine learning framework for assessment of microbial factory performance

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  • Tolutola Oyetunde
  • Di Liu
  • Hector Garcia Martin
  • Yinjie J Tang

Abstract

Metabolic models can estimate intrinsic product yields for microbial factories, but such frameworks struggle to predict cell performance (including product titer or rate) under suboptimal metabolism and complex bioprocess conditions. On the other hand, machine learning, complementary to metabolic modeling necessitates large amounts of data. Building such a database for metabolic engineering designs requires significant manpower and is prone to human errors and bias. We propose an approach to integrate data-driven methods with genome scale metabolic model for assessment of microbial bio-production (yield, titer and rate). Using engineered E. coli as an example, we manually extracted and curated a data set comprising about 1200 experimentally realized cell factories from ~100 papers. We furthermore augmented the key design features (e.g., genetic modifications and bioprocess variables) extracted from literature with additional features derived from running the genome-scale metabolic model iML1515 simulations with constraints that match the experimental data. Then, data augmentation and ensemble learning (e.g., support vector machines, gradient boosted trees, and neural networks in a stacked regressor model) are employed to alleviate the challenges of sparse, non-standardized, and incomplete data sets, while multiple correspondence analysis/principal component analysis are used to rank influential factors on bio-production. The hybrid framework demonstrates a reasonably high cross-validation accuracy for prediction of E.coli factory performance metrics under presumed bioprocess and pathway conditions (Pearson correlation coefficients between 0.8 and 0.93 on new data not seen by the model).

Suggested Citation

  • Tolutola Oyetunde & Di Liu & Hector Garcia Martin & Yinjie J Tang, 2019. "Machine learning framework for assessment of microbial factory performance," PLOS ONE, Public Library of Science, vol. 14(1), pages 1-15, January.
  • Handle: RePEc:plo:pone00:0210558
    DOI: 10.1371/journal.pone.0210558
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    References listed on IDEAS

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    1. Stephen Gang Wu & Yuxuan Wang & Wu Jiang & Tolutola Oyetunde & Ruilian Yao & Xuehong Zhang & Kazuyuki Shimizu & Yinjie J Tang & Forrest Sheng Bao, 2016. "Rapid Prediction of Bacterial Heterotrophic Fluxomics Using Machine Learning and Constraint Programming," PLOS Computational Biology, Public Library of Science, vol. 12(4), pages 1-22, April.
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    Cited by:

    1. Guido Zampieri & Supreeta Vijayakumar & Elisabeth Yaneske & Claudio Angione, 2019. "Machine and deep learning meet genome-scale metabolic modeling," PLOS Computational Biology, Public Library of Science, vol. 15(7), pages 1-24, July.

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    1. Guido Zampieri & Supreeta Vijayakumar & Elisabeth Yaneske & Claudio Angione, 2019. "Machine and deep learning meet genome-scale metabolic modeling," PLOS Computational Biology, Public Library of Science, vol. 15(7), pages 1-24, July.

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