基于均匀设计的人工神经网络方法优化补料分批发酵条件：在伊枯草菌素A生产中的应用

The artificial neural network approach based on uniform design to optimize the fed-batch fermentation condition: application to the production of iturin A.

作者信息

Peng Wenjing, Zhong Juan, Yang Jie, Ren Yanli, Xu Tan, Xiao Song, Zhou Jinyan, Tan Hong

机构信息

Key Laboratory of Environmental and Applied Microbiology, Chengdu Institute of Biology, Chinese Academy of Sciences, Chengdu 610041, PR China.

出版信息

Microb Cell Fact. 2014 Apr 13;13(1):54. doi: 10.1186/1475-2859-13-54.

DOI:10.1186/1475-2859-13-54

PMID:24725635

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3991868/

Abstract

BACKGROUND

Iturin A is a potential lipopeptide antibiotic produced by Bacillus subtilis. Optimization of iturin A yield by adding various concentrations of asparagine (Asn), glutamic acid (Glu) and proline (Pro) during the fed-batch fermentation process was studied using an artificial neural network-genetic algorithm (ANN-GA) and uniform design (UD). Here, ANN-GA based on the UD data was used for the first time to analyze the fed-batch fermentation process. The ANN-GA and UD methodologies were compared based on their fitting ability, prediction and generalization capacity and sensitivity analysis.

RESULTS

The ANN model based on the UD data performed well on minimal statistical designed experimental number and the optimum iturin A yield was 13364.5 ± 271.3 U/mL compared with a yield of 9929.0 ± 280.9 U/mL for the control (batch fermentation without adding the amino acids). The root-mean-square-error for the ANN model with the training set and test set was 4.84 and 273.58 respectively, which was more than two times better than that for the UD model (32.21 and 483.12). The correlation coefficient for the ANN model with training and test sets was 100% and 92.62%, respectively (compared with 99.86% and 78.58% for UD). The error% for ANN with the training and test sets was 0.093 and 2.19 respectively (compared with 0.26 and 4.15 for UD). The sensitivity analysis of both methods showed the comparable results. The predictive error of the optimal iturin A yield for ANN-GA and UD was 0.8% and 2.17%, respectively.

CONCLUSIONS

The satisfactory fitting and predicting accuracy of ANN indicated that ANN worked well with the UD data. Through ANN-GA, the iturin A yield was significantly increased by 34.6%. The fitness, prediction, and generalization capacities of the ANN model were better than those of the UD model. Further, although UD could get the insight information between variables directly, ANN was also demonstrated to be efficient in the sensitivity analysis. The results of these comparisons indicated that ANN could be a better alternative way for fermentation optimization with limited number of experiments.

摘要

背景

iturin A是枯草芽孢杆菌产生的一种潜在脂肽抗生素。利用人工神经网络-遗传算法（ANN-GA）和均匀设计（UD）研究了在补料分批发酵过程中添加不同浓度的天冬酰胺（Asn）、谷氨酸（Glu）和脯氨酸（Pro）对iturin A产量的优化情况。在此，首次将基于UD数据的ANN-GA用于分析补料分批发酵过程。基于拟合能力、预测和泛化能力以及敏感性分析对ANN-GA和UD方法进行了比较。

结果

基于UD数据的ANN模型在最少的统计设计实验次数下表现良好，iturin A的最佳产量为13364.5±271.3 U/mL，而对照（不添加氨基酸的分批发酵）的产量为9929.0±280.9 U/mL。ANN模型训练集和测试集的均方根误差分别为4.84和273.58，比UD模型（32.21和483.12）好两倍多。ANN模型训练集和测试集的相关系数分别为100%和92.62%（相比之下，UD分别为99.86%和78.58%）。ANN训练集和测试集的误差百分比分别为0.093和2.19（相比之下，UD分别为0.26和4.15）。两种方法的敏感性分析结果相当。ANN-GA和UD对iturin A最佳产量的预测误差分别为0.8%和2.17%。

结论

ANN令人满意的拟合和预测准确性表明ANN与UD数据配合良好。通过ANN-GA，iturin A产量显著提高了34.6%。ANN模型的适应性、预测和泛化能力优于UD模型。此外，虽然UD可以直接获得变量之间的洞察信息，但ANN在敏感性分析中也被证明是有效的。这些比较结果表明，ANN可以成为在有限实验次数下进行发酵优化的更好替代方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/65d9/3991868/6be9c84888aa/1475-2859-13-54-1.jpg

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基于均匀设计的人工神经网络方法优化补料分批发酵条件：在伊枯草菌素A生产中的应用

The artificial neural network approach based on uniform design to optimize the fed-batch fermentation condition: application to the production of iturin A.

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