通过机器学习建模对碱预处理玉米芯木聚糖经酶水解生产低聚木糖进行多目标优化

Multi-Objective Optimization Through Machine Learning Modeling for Production of Xylooligosaccharides from Alkali-Pretreated Corn-Cob Xylan Via Enzymatic Hydrolysis.

作者信息

Khangwal Ishu, Chhabra Deepak, Shukla Pratyoosh

机构信息

Enzyme Technology and Protein Bioinformatics Laboratory, Department of Microbiology, Maharshi Dayanand University, Rohtak, Haryana 124001 India.

Optimization and Mechatronics Laboratory, Department of Mechanical Engineering, University Institute of Engineering and Technology, Maharshi Dayanand University, Rohtak, Haryana India.

出版信息

Indian J Microbiol. 2021 Dec;61(4):458-466. doi: 10.1007/s12088-021-00970-2. Epub 2021 Aug 14.

DOI:10.1007/s12088-021-00970-2

PMID:34744201

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8542020/

Abstract

The hemicellulose content present in corn cobs can help in producing a high amount of xylooligosaccharides (XOS) in an eco-friendly manner. In this work, the XOS was produced from alkali pre-treated corn-cobs having a true yield of 38 ± 1.4% via enzymatic hydrolysis with the help of xylanase from VAPS-24. The production process was optimized to achieve a high concentration of XOS using innovative multi-objective optimization through machine learning modeling and finding out the most suitable parameters where xylobiose production is higher than xylose. The Multi-objective connected neural networks (MOCNN) model with tangent sigmoid activation function yielded a correlation coefficient of 96.51%; there were six optimal sets where xylobiose concentration was higher than xylose. The best-optimized conditions yielded 3.03 mg/ml of xylobiose and 1.31 mg/ml of xylose. Therefore, this novel approach of machine learning can target the increasing demand for xylooligosaccharides in the growing industrial market of prebiotics.

摘要

玉米芯中含有的半纤维素有助于以环保方式大量生产低聚木糖（XOS）。在这项工作中，通过来自VAPS - 24的木聚糖酶进行酶水解，从碱预处理的玉米芯中生产出了XOS，其实际产率为38±1.4%。通过机器学习建模进行创新的多目标优化，并找出木二糖产量高于木糖的最合适参数，从而优化生产过程以实现高浓度的XOS。具有正切Sigmoid激活函数的多目标连接神经网络（MOCNN）模型的相关系数为96.51%；有六个最佳组合，其中木二糖浓度高于木糖。最佳优化条件下产生了3.03毫克/毫升的木二糖和1.31毫克/毫升的木糖。因此，这种新颖的机器学习方法能够满足益生元不断增长的工业市场对低聚木糖日益增长的需求。

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