Expression level of SOR1 is a bottleneck for efficient sorbitol utilization by yeast Komagataella kurtzmanii.

IF 2.2 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Yeast Pub Date : 2023-09-01 Epub Date: 2023-06-05 DOI:10.1002/yea.3884

Philipp Akentyev, Daria Sokolova, Aleksei Korzhenkov, Irek Gubaidullin, Dmitry Kozlov

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Abstract

The yeast strain Komagataella kurtzmanii VKPM Y-727 shows a significant defect in sorbitol utilization compared to closely related yeast K. phaffii (including strains formerly identified as Pichia pastoris). Our aim was to investigate the factors that determine the phenotype of the wild-type strain and to obtain a K. kurtzmanii strain with an improved ability to utilize sorbitol. We sequenced and annotated the genome of K. kurtzmanii VKPM Y-727 and compared it with that of K. phaffii GS115. Five K. phaffii GS115 genes that might be involved in sorbitol metabolism were selected and transferred into K. kurtzmanii Y-727. The transfer of the modified SOR1 gene resulted in an increased growth rate of K. kurtzmanii in sorbitol, despite the fact that Y-727 already contains its own SOR1 gene without any apparent mutations. The enzymes encoded by the SOR1 genes were analyzed in vitro and found to have similar properties. Differences in promoter activity were assessed using lacZ as a reporter gene, and the P_SDH727 (promoter of SOR1 (SDH727) from K. kurtzmanii Y-727) promoter was shown to be 1.5-2.0 times weaker than P_SDH115 (promoter of SOR1 (SDH115) from K. phaffii GS115). Moreover, both promoters were less active in K. kurtzmanii than in K. phaffii when evaluated in cells grown in synthetic complete media with glucose or sorbitol. Thus, SOR1 gene expression was identified as a bottleneck in sorbitol metabolism in K. kurtzmanii. Also, the positive effect of additional modified SOR1 gene copies was observed in both yeasts, as K. kurtzmanii and K. phaffii could grow on synthetic complete media with sorbitol three times faster than the original K. phaffii GS115 strain.

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SOR1的表达水平是Komagataella kurtzmanii酵母有效利用山梨醇的瓶颈。

与密切相关的酵母K.phaffii（包括以前鉴定为毕赤酵母的菌株）相比，酵母菌株Komagataella kurtzmani-VKPM Y-727在山梨醇利用方面显示出显著缺陷。我们的目的是研究决定野生型菌株表型的因素，并获得具有改进的利用山梨醇能力的K.kurtzmanii菌株。我们对库尔茨曼尼K.kurtzmanii VKPM Y-727的基因组进行了测序和注释，并将其与法菲K.phaffii GS115的基因组进行比较。筛选出5个可能参与山梨醇代谢的Phaffini K.GS115基因，并将其转移到kurtzmanii K.Y-727中。尽管Y-727已经包含其自身的SOR1基因而没有任何明显的突变，但修饰的SOR1转基因的转移导致K.kurtzmanii在山梨醇中的生长速率增加。SOR1基因编码的酶在体外进行了分析，发现具有相似的性质。使用lacZ作为报告基因来评估启动子活性的差异，并且PSDH727（来自K.kurtzmanii Y-727的SOR1（SDH727）的启动子）启动子显示为比PSDH115（来自K.phaffii GS115的SOR1的启动子（SDH115））弱1.5-2.0倍。此外，当在含有葡萄糖或山梨醇的合成完全培养基中生长的细胞中进行评估时，这两种启动子在库尔茨曼尼的活性低于在法菲的活性。因此，SOR1基因表达被确定为库尔茨曼尼山梨糖醇代谢的瓶颈。此外，在两种酵母中都观察到了额外修饰的SOR1基因拷贝的积极作用，因为K.kurtzmanii和K.phaffii在含有山梨醇的合成完全培养基上的生长速度是原始K.phaffi GS115菌株的三倍。

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来源期刊

Yeast 生物-生化与分子生物学

CiteScore

5.30

自引率

3.80%

发文量

审稿时长

3 months

期刊介绍： Yeast publishes original articles and reviews on the most significant developments of research with unicellular fungi, including innovative methods of broad applicability. It is essential reading for those wishing to keep up to date with this rapidly moving field of yeast biology. Topics covered include: biochemistry and molecular biology; biodiversity and taxonomy; biotechnology; cell and developmental biology; ecology and evolution; genetics and genomics; metabolism and physiology; pathobiology; synthetic and systems biology; tools and resources