通过大气和室温等离子体诱变以及基于诺氟酮的筛选,提高焦绿绿藻新型黄色突变菌株的叶黄素和蛋白质产量,并改善其感官特性

IF 7 1区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Xiangru Shi , Qianqian Li , Xiao Chen , Jiayan Xie , Dong Wei
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引用次数: 0

摘要

为了实现提高叶黄素和蛋白质含量以及改善作为未来食品原料的黄绿藻突变体生物质感官特性的三重目的,通过大气和室温等离子体诱变(ARTP)以及基于诺氟酮的筛选,成功选育出一种新型黄色突变体--CX41菌株。与之前培育的黄色高蛋白突变体 A4-1 株系相比,CX41 株系的叶黄素(0.86 毫克/克)和蛋白质(49.00 % DW)含量同时明显增加,总氨基酸(33.47 % DW)和必需氨基酸(14.78 % DW)含量也有所提高,氨基酸得分(86.49)也更高。感官评估显示,CX41 的生物量更接近 A4-1,而与野生型(WT)相比,CX41 更偏向于烘烤,青草味、木质味、馊味和腥味更淡,口感显著改善,甜度降低了 8.40%,苦度降低了 14.86%,鲜味强度提高了 5.93%。代谢组分析表明,感官特征的改善是由于 β-酮(草本气味)和 1-辛烯、己醛、1-辛烯-3-醇和庚醛等物质(腥味和馊味)的相对气味活性显著降低。大量的改进结果表明,CX41 生物质是一种非常有前景的原料,具有高叶黄素和蛋白质营养成分,以及极佳的口感和风味,可用于未来的食品应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Enhanced lutein and protein production with improved organoleptic properties in a novel yellow strain of Auxenochlorella pyrenoidosa mutant through atmospheric and room temperature plasma mutagenesis and norflurazon-based screening

Enhanced lutein and protein production with improved organoleptic properties in a novel yellow strain of Auxenochlorella pyrenoidosa mutant through atmospheric and room temperature plasma mutagenesis and norflurazon-based screening
To achieve the triple purpose of enhancing lutein and protein contents as well as improving organoleptic properties in biomass of Auxenochlorella pyrenoidosa mutant as raw material of future food, a novel yellow mutant, CX41 strain, was successfully selected through atmospheric and room temperature plasma (ARTP) mutagenesis and norflurazon-based screening. CX41 strain exhibited a significantly increased lutein (0.86 mg/g) and protein (49.00 % DW) contents simultaneously, while higher levels of total (33.47 % DW) and essential amino acids (14.78 % DW) were achieved with higher amino acid score (86.49) than that of the original A4-1 strain, a yellow and high protein mutant bred previously. Sensory evaluation showed that CX41 biomass has more comparable to A4-1, while in comparison to the wild type (WT), it has a more inclination towards roasted, with a fainter grassy, woody, rancid and fishy odor, and a significant improvement in taste is reflected by a decrease of 8.40 % in sweetness, a reduction of 14.86 % in bitterness, and an increase of 5.93 % in umami intensity. Metabolome analysis revealed that the superior sensory profile was due to the significantly reduced relative odor activity of β-ionone (herbaceous odor) and substances such as 1-octene, hexanal, 1-octen-3-ol, and heptanal (fishy and rancid odors). The extensive enhancements demonstrated CX41 biomass as a highly promising raw material with high nutrients of lutein and protein as well as excellent taste and flavor for future food application.
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来源期刊
Food Research International
Food Research International 工程技术-食品科技
CiteScore
12.50
自引率
7.40%
发文量
1183
审稿时长
79 days
期刊介绍: Food Research International serves as a rapid dissemination platform for significant and impactful research in food science, technology, engineering, and nutrition. The journal focuses on publishing novel, high-quality, and high-impact review papers, original research papers, and letters to the editors across various disciplines in the science and technology of food. Additionally, it follows a policy of publishing special issues on topical and emergent subjects in food research or related areas. Selected, peer-reviewed papers from scientific meetings, workshops, and conferences on the science, technology, and engineering of foods are also featured in special issues.
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