Characterization of Delta-7 Alkenone Desaturase in Haptophyte Gephyrocapsa huxleyi Through Heterologous Expression in Tisochrysis lutea

IF 2.6 3区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Marine Biotechnology Pub Date : 2025-02-08 DOI:10.1007/s10126-025-10427-y

Kohei Yoneda, Chinatsu Kobayashi, Hiroya Araie, Rikuri Morita, Ryuhei Harada, Yasuteru Shigeta, Hirotoshi Endo, Yoshiaki Maeda, Iwane Suzuki

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Abstract

The marine haptophyte Gephyrocapsa huxleyi is an ecologically and geochemically important phytoplankton due to its contribution to the global carbon cycle and its ability to biosynthesize certain alkenones. These alkenones are long-chain alkyl ketones with two to four trans-type double bonds. The genes encoding alkenone desaturase in G. huxleyi have not been experimentally characterized so far, partly due to the difficulty of inducing genetic transformation in G. huxleyi. Therefore, we introduced the putative alkenone delta-7 desaturase of G. huxleyi (designated “DesT”) to the transformable and alkenone-producing haptophyte Tisochrysis lutea. We found two types of coding sequences for DesT, which are probably derived from the expression products of different alleles, and designated them “DesT-1” and “DesT-2.” The ratio of C_37:3 to C_37:2 methyl alkenone in the DesT-1 transformant was significantly higher than that in the mock strain that expressed only the hygromycin resistance gene, suggesting that DesT-1 was an alkenone delta-7 desaturase in G. huxleyi. In the protein structure, a tunnel where a substrate alkenone penetrates was predicted to be located around the histidine box of DesT, and hydrophilic and hydrophobic amino acids were respectively located at the proximal (near side to the histidine box) and distal ends of the tunnel. This is the first study to conduct experimental characterization of the alkenone metabolism-related gene in G. huxleyi. The heterologous expression system using T. lutea paves the way for further characterization of the alkenone metabolism-related genes in less transformable haptophytes.

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通过在黄体组织溶酶中的异源表达来鉴定赫斯黎褐藻δ -7烯酮去饱和酶

赫胥黎海生植物对全球碳循环的贡献和其生物合成某些烯酮的能力使其成为一种重要的生态和地球化学浮游植物。这些烯酮是长链烷基酮，有2到4个反式双键。赫胥黎烯酮去饱和酶的编码基因尚未被实验鉴定，部分原因是在赫胥黎中难以诱导遗传转化。因此，我们将假定的G. huxleyi的烯酮δ -7去饱和酶（简称“DesT”）引入到可转化和产生烯酮的褐藓组织中。我们发现了两种可能来源于不同等位基因表达产物的DesT编码序列，并将其命名为“DesT-1”和“DesT-2”。在DesT-1转化株中，C37:3与C37:2甲基烯酮的比例显著高于只表达湿霉素抗性基因的模拟菌株，表明DesT-1是赫胥氏菌中的烯酮δ -7去饱和酶。在蛋白质结构中，预测底物烯酮穿透的隧道位于DesT组氨酸盒周围，亲水性和疏水性氨基酸分别位于隧道的近端（组氨酸盒近侧）和远端。这是首次对赫胥黎烯酮代谢相关基因进行实验表征的研究。利用黄体黄体的异源表达系统为进一步表征不易转化的触觉植物中烯酮代谢相关基因铺平了道路。

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来源期刊

Marine Biotechnology 工程技术-海洋与淡水生物学

CiteScore

4.80

自引率

3.30%

发文量

审稿时长

2 months

期刊介绍： Marine Biotechnology welcomes high-quality research papers presenting novel data on the biotechnology of aquatic organisms. The journal publishes high quality papers in the areas of molecular biology, genomics, proteomics, cell biology, and biochemistry, and particularly encourages submissions of papers related to genome biology such as linkage mapping, large-scale gene discoveries, QTL analysis, physical mapping, and comparative and functional genome analysis. Papers on technological development and marine natural products should demonstrate innovation and novel applications.