Engineering a fermenting yeast able to produce the fragrant β-ionone apocarotenoid for enhanced aroma properties in wine.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-01-04 DOI:10.1093/femsyr/foad001
J J B Timmins, N van Wyk, H Kroukamp, R S K Walker, S Fritsch, D Rauhut, C von Wallbrunn, I S Pretorius, I T Paulsen
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Abstract

Wine is composed of multitudinous flavour components and volatile organic compounds that provide this beverage with its attractive properties of taste and aroma. The perceived quality of a wine can be attributed to the absolute and relative concentrations of favourable aroma compounds; hence, increasing the detectable levels of an attractive aroma, such as β-ionone with its violet and berry notes, can improve the organoleptic qualities of given wine styles. We here describe the generation of a new grape-must fermenting strain of Saccharomyces cerevisiae that is capable of releasing β-ionone through the heterologous expression of both the enzyme carotenoid cleavage dioxygenase 1 (CCD1) and its substrate, β-carotene. Haploid laboratory strains of S. cerevisiae were constructed with and without integrated carotenogenic genes and transformed with a plasmid containing the genes of CCD1. These strains were then mated with a sporulated diploid wine industry yeast, VIN13, and four resultant crosses-designated MQ01-MQ04-which were capable of fermenting the must to dryness were compared for their ability to release β-ionone. Analyses of their fermentation products showed that the MQ01 strain produced a high level of β-ionone and offers a fermenting hybrid yeast with the potential to enhance the organoleptic qualities of wine.

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设计一种能够产生芳香的β-离子酮类伪胡萝卜素的发酵酵母,以增强葡萄酒的香气特性。
葡萄酒是由多种风味成分和挥发性有机化合物组成的,这些成分为这种饮料提供了诱人的口感和香气。葡萄酒的感知质量可以归因于有利的香气化合物的绝对和相对浓度;因此,增加一种吸引人的香气的可检测水平,比如带有紫罗兰和浆果味的β-ionone,可以改善特定葡萄酒风格的感官品质。我们在这里描述了一种新的葡萄发酵菌株的产生,该菌株能够通过异源表达类胡萝卜素裂解双加氧酶1 (CCD1)及其底物β-胡萝卜素释放β-离子酮。构建了含和不含合成胡萝卜素基因的酿酒酵母单倍体实验室菌株,并用含CCD1基因的质粒进行转化。然后将这些菌株与有孢子的二倍体葡萄酒工业酵母VIN13和四个命名为mq01 - mq04的杂交组合进行杂交,比较它们释放β-离子酮的能力,这些杂交组合能够将葡萄酒发酵到干燥。对其发酵产物的分析表明,MQ01菌株产生了高水平的β-ionone,并提供了一种具有提高葡萄酒感官品质潜力的发酵杂交酵母。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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