Optimization of enzyme-ultrasound assisted extraction from mulberries anthocyanins based on response surface methodology and deep neural networks and analysis of in vitro antioxidant activities
This study used Xinjiang native “medicinal and food dual-use” resource mulberries as raw material, and optimized the extraction process of mulberries anthocyanins by enzyme-ultrasound-assistance through the establishment of a response surface model (RSM) and deep neural network model (DNN). A single...
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| Published in | Food chemistry Vol. 478; p. 143597 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier Ltd
30.06.2025
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| Abstract | This study used Xinjiang native “medicinal and food dual-use” resource mulberries as raw material, and optimized the extraction process of mulberries anthocyanins by enzyme-ultrasound-assistance through the establishment of a response surface model (RSM) and deep neural network model (DNN). A single-factor-Box-Behnken experiment was conducted to investigate the effects of pectinase dosage, enzymatic hydrolysis time, ultrasonic temperature, ultrasonic time, solvent concentration, and solid-liquid ratio on the extraction rates of total anthocyanins (TAC), and cyanidin-3-O-glucoside (C3G), cyanidin-3-O-rutinoside (C3R) two anthocyanin compounds, and the comprehensive evaluation index was used as a reference to obtain the optimal extraction conditions. The results show that both the RSM and DNN models could predict accurately, but by comparing the coefficient of determination (R2) of the two models, it was found that the DNN model (R2 = 0.990 0) has a better predictive effect than the RSM model (R2 = 0.940 4), and the relative error of the DNN model is 0.85 %, far lower than the 4.50 % of the RSM model. The predictive accuracy of the DNN model is better than that of the RSM model. It indicates that the DNN model can accurately reflect the experimental results when predicting the extraction process of mulberries anthocyanins. Finally, the optimal extraction process of mulberries anthocyanins components was determined by the DNN model: solid-liquid ratio of 50 mL/g, ethanol concentration of 63 %, ultrasonic temperature of 40 °C, pectinase dosage of 0.5 %, and the total anthocyanin content in mulberry could reach 3.16 mg/g under these conditions. The DPPH, ABTS, and ·OH maximum scavenging rates were 80 %, 98 %, and 54 %, respectively, indicating that mulberries anthocyanins have significant antioxidant capacity. The results of this study provide an effective and sustainable process optimization scheme for extracting anthocyanin components from mulberries.
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•Optimization of Mulberry Anthocyanin Extraction: A combined RSM and DNN model optimized enzyme-ultrasound assisted extraction of mulberry anthocyanins.•High Predictive Accuracy:The DNN model (R2 = 0.9900, error = 0.85 %) outperformed RSM (R2 = 0.9404, error = 4.50 %) in prediction.•Enhanced Anthocyanin Content: Optimal extraction achieved 3.16 mg/g total anthocyanin content in mulberries.•Significant Antioxidant Activity: Anthocyanins showed 80 % DPPH, 98 % ABTS, and 54 % ·OH scavenging rates.•Sustainable Process Optimization: This study offers a sustainable and efficient process for extracting mulberry anthocyanins. |
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| AbstractList | This study used Xinjiang native "medicinal and food dual-use" resource mulberries as raw material, and optimized the extraction process of mulberries anthocyanins by enzyme-ultrasound-assistance through the establishment of a response surface model (RSM) and deep neural network model (DNN). A single-factor-Box-Behnken experiment was conducted to investigate the effects of pectinase dosage, enzymatic hydrolysis time, ultrasonic temperature, ultrasonic time, solvent concentration, and solid-liquid ratio on the extraction rates of total anthocyanins (TAC), and cyanidin-3-O-glucoside (C3G), cyanidin-3-O-rutinoside (C3R) two anthocyanin compounds, and the comprehensive evaluation index was used as a reference to obtain the optimal extraction conditions. The results show that both the RSM and DNN models could predict accurately, but by comparing the coefficient of determination (R2) of the two models, it was found that the DNN model (R2 = 0.990 0) has a better predictive effect than the RSM model (R2 = 0.940 4), and the relative error of the DNN model is 0.85 %, far lower than the 4.50 % of the RSM model. The predictive accuracy of the DNN model is better than that of the RSM model. It indicates that the DNN model can accurately reflect the experimental results when predicting the extraction process of mulberries anthocyanins. Finally, the optimal extraction process of mulberries anthocyanins components was determined by the DNN model: solid-liquid ratio of 50 mL/g, ethanol concentration of 63 %, ultrasonic temperature of 40 °C, pectinase dosage of 0.5 %, and the total anthocyanin content in mulberry could reach 3.16 mg/g under these conditions. The DPPH, ABTS, and ·OH maximum scavenging rates were 80 %, 98 %, and 54 %, respectively, indicating that mulberries anthocyanins have significant antioxidant capacity. The results of this study provide an effective and sustainable process optimization scheme for extracting anthocyanin components from mulberries.This study used Xinjiang native "medicinal and food dual-use" resource mulberries as raw material, and optimized the extraction process of mulberries anthocyanins by enzyme-ultrasound-assistance through the establishment of a response surface model (RSM) and deep neural network model (DNN). A single-factor-Box-Behnken experiment was conducted to investigate the effects of pectinase dosage, enzymatic hydrolysis time, ultrasonic temperature, ultrasonic time, solvent concentration, and solid-liquid ratio on the extraction rates of total anthocyanins (TAC), and cyanidin-3-O-glucoside (C3G), cyanidin-3-O-rutinoside (C3R) two anthocyanin compounds, and the comprehensive evaluation index was used as a reference to obtain the optimal extraction conditions. The results show that both the RSM and DNN models could predict accurately, but by comparing the coefficient of determination (R2) of the two models, it was found that the DNN model (R2 = 0.990 0) has a better predictive effect than the RSM model (R2 = 0.940 4), and the relative error of the DNN model is 0.85 %, far lower than the 4.50 % of the RSM model. The predictive accuracy of the DNN model is better than that of the RSM model. It indicates that the DNN model can accurately reflect the experimental results when predicting the extraction process of mulberries anthocyanins. Finally, the optimal extraction process of mulberries anthocyanins components was determined by the DNN model: solid-liquid ratio of 50 mL/g, ethanol concentration of 63 %, ultrasonic temperature of 40 °C, pectinase dosage of 0.5 %, and the total anthocyanin content in mulberry could reach 3.16 mg/g under these conditions. The DPPH, ABTS, and ·OH maximum scavenging rates were 80 %, 98 %, and 54 %, respectively, indicating that mulberries anthocyanins have significant antioxidant capacity. The results of this study provide an effective and sustainable process optimization scheme for extracting anthocyanin components from mulberries. This study used Xinjiang native “medicinal and food dual-use” resource mulberries as raw material, and optimized the extraction process of mulberries anthocyanins by enzyme-ultrasound-assistance through the establishment of a response surface model (RSM) and deep neural network model (DNN). A single-factor-Box-Behnken experiment was conducted to investigate the effects of pectinase dosage, enzymatic hydrolysis time, ultrasonic temperature, ultrasonic time, solvent concentration, and solid-liquid ratio on the extraction rates of total anthocyanins (TAC), and cyanidin-3-O-glucoside (C3G), cyanidin-3-O-rutinoside (C3R) two anthocyanin compounds, and the comprehensive evaluation index was used as a reference to obtain the optimal extraction conditions. The results show that both the RSM and DNN models could predict accurately, but by comparing the coefficient of determination (R2) of the two models, it was found that the DNN model (R2 = 0.990 0) has a better predictive effect than the RSM model (R2 = 0.940 4), and the relative error of the DNN model is 0.85 %, far lower than the 4.50 % of the RSM model. The predictive accuracy of the DNN model is better than that of the RSM model. It indicates that the DNN model can accurately reflect the experimental results when predicting the extraction process of mulberries anthocyanins. Finally, the optimal extraction process of mulberries anthocyanins components was determined by the DNN model: solid-liquid ratio of 50 mL/g, ethanol concentration of 63 %, ultrasonic temperature of 40 °C, pectinase dosage of 0.5 %, and the total anthocyanin content in mulberry could reach 3.16 mg/g under these conditions. The DPPH, ABTS, and ·OH maximum scavenging rates were 80 %, 98 %, and 54 %, respectively, indicating that mulberries anthocyanins have significant antioxidant capacity. The results of this study provide an effective and sustainable process optimization scheme for extracting anthocyanin components from mulberries. [Display omitted] •Optimization of Mulberry Anthocyanin Extraction: A combined RSM and DNN model optimized enzyme-ultrasound assisted extraction of mulberry anthocyanins.•High Predictive Accuracy:The DNN model (R2 = 0.9900, error = 0.85 %) outperformed RSM (R2 = 0.9404, error = 4.50 %) in prediction.•Enhanced Anthocyanin Content: Optimal extraction achieved 3.16 mg/g total anthocyanin content in mulberries.•Significant Antioxidant Activity: Anthocyanins showed 80 % DPPH, 98 % ABTS, and 54 % ·OH scavenging rates.•Sustainable Process Optimization: This study offers a sustainable and efficient process for extracting mulberry anthocyanins. This study used Xinjiang native "medicinal and food dual-use" resource mulberries as raw material, and optimized the extraction process of mulberries anthocyanins by enzyme-ultrasound-assistance through the establishment of a response surface model (RSM) and deep neural network model (DNN). A single-factor-Box-Behnken experiment was conducted to investigate the effects of pectinase dosage, enzymatic hydrolysis time, ultrasonic temperature, ultrasonic time, solvent concentration, and solid-liquid ratio on the extraction rates of total anthocyanins (TAC), and cyanidin-3-O-glucoside (C3G), cyanidin-3-O-rutinoside (C3R) two anthocyanin compounds, and the comprehensive evaluation index was used as a reference to obtain the optimal extraction conditions. The results show that both the RSM and DNN models could predict accurately, but by comparing the coefficient of determination (R ) of the two models, it was found that the DNN model (R = 0.990 0) has a better predictive effect than the RSM model (R = 0.940 4), and the relative error of the DNN model is 0.85 %, far lower than the 4.50 % of the RSM model. The predictive accuracy of the DNN model is better than that of the RSM model. It indicates that the DNN model can accurately reflect the experimental results when predicting the extraction process of mulberries anthocyanins. Finally, the optimal extraction process of mulberries anthocyanins components was determined by the DNN model: solid-liquid ratio of 50 mL/g, ethanol concentration of 63 %, ultrasonic temperature of 40 °C, pectinase dosage of 0.5 %, and the total anthocyanin content in mulberry could reach 3.16 mg/g under these conditions. The DPPH, ABTS, and ·OH maximum scavenging rates were 80 %, 98 %, and 54 %, respectively, indicating that mulberries anthocyanins have significant antioxidant capacity. The results of this study provide an effective and sustainable process optimization scheme for extracting anthocyanin components from mulberries. This study used Xinjiang native “medicinal and food dual-use” resource mulberries as raw material, and optimized the extraction process of mulberries anthocyanins by enzyme-ultrasound-assistance through the establishment of a response surface model (RSM) and deep neural network model (DNN). A single-factor-Box-Behnken experiment was conducted to investigate the effects of pectinase dosage, enzymatic hydrolysis time, ultrasonic temperature, ultrasonic time, solvent concentration, and solid-liquid ratio on the extraction rates of total anthocyanins (TAC), and cyanidin-3-O-glucoside (C3G), cyanidin-3-O-rutinoside (C3R) two anthocyanin compounds, and the comprehensive evaluation index was used as a reference to obtain the optimal extraction conditions. The results show that both the RSM and DNN models could predict accurately, but by comparing the coefficient of determination (R²) of the two models, it was found that the DNN model (R² = 0.990 0) has a better predictive effect than the RSM model (R² = 0.940 4), and the relative error of the DNN model is 0.85 %, far lower than the 4.50 % of the RSM model. The predictive accuracy of the DNN model is better than that of the RSM model. It indicates that the DNN model can accurately reflect the experimental results when predicting the extraction process of mulberries anthocyanins. Finally, the optimal extraction process of mulberries anthocyanins components was determined by the DNN model: solid-liquid ratio of 50 mL/g, ethanol concentration of 63 %, ultrasonic temperature of 40 °C, pectinase dosage of 0.5 %, and the total anthocyanin content in mulberry could reach 3.16 mg/g under these conditions. The DPPH, ABTS, and ·OH maximum scavenging rates were 80 %, 98 %, and 54 %, respectively, indicating that mulberries anthocyanins have significant antioxidant capacity. The results of this study provide an effective and sustainable process optimization scheme for extracting anthocyanin components from mulberries. |
| ArticleNumber | 143597 |
| Author | Qi, Shuwen Zhang, Juan Ding, Wenhuan Wu, Yukun Mamattursun, Asiya Ma, Xiaoli Zhang, Chunzi Ma, Xiaoyan |
| Author_xml | – sequence: 1 givenname: Chunzi surname: Zhang fullname: Zhang, Chunzi – sequence: 2 givenname: Wenhuan surname: Ding fullname: Ding, Wenhuan – sequence: 3 givenname: Asiya surname: Mamattursun fullname: Mamattursun, Asiya – sequence: 4 givenname: Xiaoyan surname: Ma fullname: Ma, Xiaoyan – sequence: 5 givenname: Shuwen surname: Qi fullname: Qi, Shuwen – sequence: 6 givenname: Yukun surname: Wu fullname: Wu, Yukun – sequence: 7 givenname: Juan surname: Zhang fullname: Zhang, Juan – sequence: 8 givenname: Xiaoli surname: Ma fullname: Ma, Xiaoli email: mxl108@sohu.com |
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| Cites_doi | 10.1016/j.indcrop.2024.118383 10.1016/j.fct.2013.05.023 10.1111/j.1750-3841.2011.02447.x 10.3390/antiox12020382 10.1016/j.foodchem.2011.04.097 10.1016/j.foodchem.2016.09.122 10.3390/foods13162492 10.2174/1871520617666170327152026 10.1016/j.ultsonch.2021.105833 10.1021/acsomega.2c02850 10.1016/j.indcrop.2024.118389 10.3390/molecules29112610 10.1007/s11694-024-02708-2 |
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| Keywords | Enzyme-ultrasound-assisted extraction Deep neural network Antioxidant activities Response surface methodology Mulberries |
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| Snippet | This study used Xinjiang native “medicinal and food dual-use” resource mulberries as raw material, and optimized the extraction process of mulberries... This study used Xinjiang native "medicinal and food dual-use" resource mulberries as raw material, and optimized the extraction process of mulberries... |
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| SubjectTerms | anthocyanins Anthocyanins - chemistry Anthocyanins - isolation & purification Antioxidant activities antioxidant activity antioxidants Antioxidants - chemistry Antioxidants - isolation & purification Chemical Fractionation - instrumentation Chemical Fractionation - methods China Deep neural network enzymatic hydrolysis Enzyme-ultrasound-assisted extraction ethanol food chemistry Fruit - chemistry Morus - chemistry Mulberries neural networks Neural Networks, Computer Plant Extracts - chemistry Plant Extracts - isolation & purification polygalacturonase Polygalacturonase - chemistry raw materials Response surface methodology solvents temperature Ultrasonic Waves ultrasonics Ultrasonics - methods |
| Title | Optimization of enzyme-ultrasound assisted extraction from mulberries anthocyanins based on response surface methodology and deep neural networks and analysis of in vitro antioxidant activities |
| URI | https://dx.doi.org/10.1016/j.foodchem.2025.143597 https://www.ncbi.nlm.nih.gov/pubmed/40064125 https://www.proquest.com/docview/3175971906 https://www.proquest.com/docview/3242041923 |
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