豌豆分离蛋白发酵过程中米曲霉蛋白质组学变化的快照

IF 4.1 Q2 FOOD SCIENCE & TECHNOLOGY
Prem Prakash Das , Caishuang Xu , Yuping Lu , Azita Khorsandi , Takuji Tanaka , Darren Korber , Michael Nickerson , Nandhakishore Rajagopalan
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引用次数: 1

摘要

豌豆(Pisum sativum)是最丰富和可持续的蛋白质替代来源之一。尽管豌豆蛋白含有大量的大多数必需氨基酸,但它们的色氨酸、蛋氨酸和半胱氨酸供应有限。此外,与动物来源的蛋白质相比,豌豆蛋白的技术功能特性较差,限制了它们在某些食品应用中的应用。固态发酵(SSF)和酶促加工等生物加工技术已被探索用于改善豌豆蛋白的营养成分和功能。然而,缺乏关于豌豆基质发酵过程中食物基质蛋白质组学变化的信息。在本研究中,使用米曲霉分离豌豆蛋白的SSF过程中的样品进行霰弹枪质谱(LC-MS/MS)分析,以确定潜在的功能途径,这些途径在使底物定殖从而潜在地提高豌豆蛋白的功能和营养价值方面发挥直接或间接的作用。结果揭示了米曲霉蛋白在SSF不同阶段参与不同代谢途径的身份。其中,蛋氨酸合成酶被鉴定为一种丰富的蛋白质,可催化蛋氨酸的生物合成。这可能表明如何利用发酵过程来改善含硫氨基酸的存在,以重新平衡必需氨基酸的结构,并提高豌豆蛋白的营养质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Snapshot of proteomic changes in Aspergillus oryzae during various stages of fermentative processing of pea protein isolate

Snapshot of proteomic changes in Aspergillus oryzae during various stages of fermentative processing of pea protein isolate

Pea (Pisum sativum) is one of the most abundant and sustainable alternate source of protein. Although pea proteins have good quantities of most of the essential amino acids, they have a limited supply of tryptophan, methionine and cysteine. Moreover, pea proteins have poor techno-functional properties compared to proteins from animal sources, limiting their use in certain food applications. Bioprocessing techniques like solid-state fermentation (SSF) and enzymatic processing have been explored to improve the nutrient profile and functionality of pea proteins. However, there is a lack of information about proteomic changes in the food matrix during fermentation of the pea substrate. In this research, samples during SSF of pea protein isolate with Aspergillus oryzae were used for shotgun mass spectrometry (LC-MS/MS) analysis to identify the underlying functional pathways which play direct or indirect roles in enabling the colonization of the substrate leading to potential improvement of functional and nutritional value of pea protein. Results revealed the identity of A. oryzae proteins involved in different metabolic pathways that differed during various stages of SSF. Among them, methionine synthase was identified as an abundant protein, which catalyzes methionine biosynthesis. This might suggest how fermentation processes could be used to improve the presence of sulfur containing amino acids to rebalance the essential amino acid profile and improve the nutritional quality of pea proteins.

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来源期刊
Food Chemistry Molecular Sciences
Food Chemistry Molecular Sciences Agricultural and Biological Sciences-Food Science
CiteScore
6.00
自引率
0.00%
发文量
83
审稿时长
82 days
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