人工神经网络在增强用于绿色生物柴油生产的脂肪酶合成中的应用。

Application of artificial neural networks for enhancing lipase synthesis for green biodiesel production.

作者信息

El-Metwally Mohammad M, Abdel-Fattah Gamal M, Al-Otibi Fatimah O, Khatieb Dina K H El, Helmy Yosra A, Mohammed Youssef M M, Saber WesamEldin I A

机构信息

Botany and Microbiology Department, Faculty of Science, Damanhour University, Damanhour, 22511, Egypt.

Botany Department, Faculty of Science, Mansoura University, Mansoura, Egypt.

出版信息

Heliyon. 2023 Sep 19;9(9):e20063. doi: 10.1016/j.heliyon.2023.e20063. eCollection 2023 Sep.

DOI:10.1016/j.heliyon.2023.e20063

PMID:37809880

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10559816/

Abstract

Biodiesel is a sustainable, and renewable alternative to fossil fuels that can be produced from various biological sources with the aid of lipases. This study developed a simple and novel fungal system for lipase biosynthesis to be used for catalyzing the oily residuals into biodiesel, employing the artificial neural network (ANN), and semi-solid-state fermentation (SSSF). was selected among agro-industrial oily residuals as a substrate for lipase biosynthesis by MH47297. The effect of cultural humidity (X1), the surfactant; Brij 35 (X2), and inoculum density (X3) on lipase biosynthesis were researched based on the matrix of Box-Behnken design (BBD). The ANN together with a new fungal candidate and SSSF were then applied for the first time to model the biosynthesis process of lipase. The optimum predicted cultural conditions varied according to the model. The optimum predicted conditions were estimated separately by BBD (X1 = 5.8 ml water/g, X2 = 46.6 μl/g, and X3 = 62156610 spore/g) and ANN (X1 = 5.4 ml water/g, X2 = 54.2 μl/g, and X3 = 100000000 spore/g) models. Based on the modeling process, the response of lipase was calculated to be 214.95 (BBD) and 217.72 U (ANN), which revealed high consistency with the experimental lipase yield (209.13 ± 3.27 U for BBD, and 218 ± 2.01 U for ANN). Despite both models showing high accuracy, ANN was more accurate and surpassed the BBD model. Gas chromatography analysis showed that lipase successfully converted corn oil to biodiesel (29.5 mg/l).

摘要

生物柴油是一种可持续的、可再生的化石燃料替代品，可借助脂肪酶从各种生物来源生产。本研究开发了一种简单新颖的用于脂肪酶生物合成的真菌系统，该系统利用人工神经网络（ANN）和半固态发酵（SSSF），将油性残渣催化转化为生物柴油。通过MH47297从农业工业油性残渣中选择作为脂肪酶生物合成的底物。基于Box-Behnken设计（BBD）矩阵，研究了培养湿度（X1）、表面活性剂Brij 35（X2）和接种密度（X3）对脂肪酶生物合成的影响。然后首次将人工神经网络与一种新的真菌候选物和半固态发酵应用于脂肪酶生物合成过程的建模。根据模型，预测的最佳培养条件各不相同。通过BBD（X1 = 5.8毫升水/克，X2 = 46.6微升/克，X3 = 62156610孢子/克）和人工神经网络（X1 = 5.4毫升水/克，X2 = 54.2微升/克，X3 = 100000000孢子/克）模型分别估计了最佳预测条件。基于建模过程，计算出脂肪酶的响应值为214.95（BBD）和217.72 U（人工神经网络），这与实验脂肪酶产量（BBD为209.13±3.27 U，人工神经网络为218±2.01 U）高度一致。尽管两个模型都显示出高精度，但人工神经网络更准确，超过了BBD模型。气相色谱分析表明，脂肪酶成功地将玉米油转化为生物柴油（29.5毫克/升）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c73/10559816/3537d0d87eee/gr1.jpg

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人工神经网络在增强用于绿色生物柴油生产的脂肪酶合成中的应用。

Application of artificial neural networks for enhancing lipase synthesis for green biodiesel production.

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