通过超声辅助碱性提取和等电沉淀法生产的白平菇和糙皮侧耳喷雾干燥蛋白浓缩物。

Spray dried protein concentrates from white button and oyster mushrooms produced by ultrasound-assisted alkaline extraction and isoelectric precipitation.

作者信息

de Medeiros Fábio Gonçalves Macêdo, You Seung Woon, Hoskin Roberta Targino, Moncada Marvin

机构信息

Plants for Human Health Institute, Department of Food, Bioprocessing and Nutrition Sciences, North Carolina State University, Kannapolis, NC, USA.

出版信息

J Sci Food Agric. 2025 Feb;105(3):1635-1650. doi: 10.1002/jsfa.13940. Epub 2024 Oct 5.

DOI:10.1002/jsfa.13940

PMID:39367715

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11726604/

Abstract

BACKGROUND

In the present study, the optimization of ultrasound-assisted alkaline extraction (UAAE) and isoelectric precipitation (IEP) was applied to white button (WBM) and oyster (OYM) mushroom flours to produce functional spray dried mushroom protein concentrates. Solid-to-liquid ratio (5-15% w/v), ultrasound power (0-900 W) and type of acid [HCl or acetic acid (AcOH)] were evaluated for their effect on the extraction and protein yields from mushroom flours submitted to UAAE-IEP protein extraction.

RESULTS

Prioritized conditions with maximized protein yield (5% w/v, 900 W, AcOH, for WBM; 5% w/v, 900 W, HCl for OYM) were used to produce spray dried protein concentrates from white button (WBM-PC) and oyster (OYM-PC) mushrooms with high solids recovery (62.3-65.8%). WBM-PC and OYM-PC had high protein content (5.19-5.81 g kg), in addition to remarkable foaming capacity (82.5-235.0%) and foam stability (7.0-162.5%), as well as antioxidant phenolics. Highly pH-dependent behavior was observed for solubility (> 90%, at pH 10) and emulsifying properties (emulsification activity index: > 50 m g, emulsion stability index: > 65%, at pH 10). UAAE-IEP followed by spray drying increased surface hydrophobicity and free sulfhydryl groups by up to 196.5% and 117.5%, respectively, which improved oil holding capacity (359.9-421.0%) and least gelation concentration (6.0-8.0%) of spray dried mushroom protein concentrates.

CONCLUSION

Overall, the present study showed that optimized UAAE-IEP coupled with spray drying is an efficient strategy to produce novel mushroom protein concentrates with enhanced functional attributes for multiple food applications. © 2024 The Author(s). Journal of the Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

摘要

背景

在本研究中，将超声辅助碱提取（UAAE）和等电沉淀（IEP）优化应用于白平菇（WBM）粉和牡蛎菇（OYM）粉，以制备功能性喷雾干燥蘑菇蛋白浓缩物。评估了固液比（5 - 15% w/v）、超声功率（0 - 900 W）和酸的类型[盐酸或乙酸（AcOH）]对采用UAAE - IEP蛋白提取法从蘑菇粉中提取蛋白质及蛋白质产量的影响。

结果

采用使蛋白质产量最大化的优先条件（白平菇为5% w/v、900 W、AcOH；牡蛎菇为5% w/v、900 W、HCl）来制备白平菇（WBM - PC）和牡蛎菇（OYM - PC）的喷雾干燥蛋白浓缩物，固体回收率较高（62.3 - 65.8%）。WBM - PC和OYM - PC除了具有显著的起泡能力（82.5 - 235.0%）和泡沫稳定性（7.0 - 162.5%）外，还含有抗氧化酚类物质，蛋白质含量较高（5.19 - 5.81 g/kg）。观察到溶解度（在pH 10时> 90%）和乳化性能（乳化活性指数：> 50 m²/g，乳化稳定性指数：在pH 10时> 65%）具有高度的pH依赖性。先进行UAAE - IEP再喷雾干燥，使喷雾干燥蘑菇蛋白浓缩物的表面疏水性和游离巯基分别增加了196.5%和117.5%，这提高了其持油能力（359. – 421.0%）和最低凝胶浓度（6.0 - 8.0%）。

结论

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/023e/11726604/2b14e8cbb456/JSFA-105-1635-g001.jpg

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通过超声辅助碱性提取和等电沉淀法生产的白平菇和糙皮侧耳喷雾干燥蛋白浓缩物。

Spray dried protein concentrates from white button and oyster mushrooms produced by ultrasound-assisted alkaline extraction and isoelectric precipitation.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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