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测定深海鱼——高体金线鱼(Beryx splendens)中的膳食必需脂肪酸:参与长链多不饱和脂肪酸生物合成的酶的功能特征。

Determination of dietary essential fatty acids in a deep-sea fish, the splendid alfonsino Beryx splendens: functional characterization of enzymes involved in long-chain polyunsaturated fatty acid biosynthesis.

机构信息

Department of Marine Biosciences, Tokyo University of Marine Science and Technology, 4-5-7 Konan, Minato, Tokyo, 108-8477, Japan.

Shizuoka Prefectural Research Institute of Fishery and Ocean, 136-24 Iwashigashima, Yaizu, Shizuoka, 425-0032, Japan.

出版信息

Fish Physiol Biochem. 2023 Jun;49(3):425-439. doi: 10.1007/s10695-023-01192-7. Epub 2023 Apr 19.

DOI:10.1007/s10695-023-01192-7
PMID:37074473
Abstract

The splendid alfonsino Beryx splendens is a commercially important deep-sea fish in East Asian countries. Because the wild stock of this species has been declining, there is an urgent need to develop aquaculture systems. In the present study, we investigated the long-chain polyunsaturated fatty acid (LC-PUFA) requirements of B. splendens, which are known as essential dietary components in many carnivorous marine fish species. The fatty acid profiles of the muscles, liver, and stomach contents of B. splendens suggested that it acquires substantial levels of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) from its natural diet. The functional characterization of a fatty acid desaturase (Fads2) and three elongases (Elovl5, Elovl4a, and Elovl4b) from B. splendens confirmed their enzymatic capabilities in LC-PUFA biosynthesis. Fads2 showed Δ6 and Δ8 bifunctional desaturase activities. Elovl5 showed preferential elongase activities toward C and C PUFA substrates, whereas Elovl4a and Elovl4b showed activities toward various C substrates. Given that Fads2 showed no Δ5 desaturase activity and no other fads-like sequence was found in the B. splendens genome, EPA and arachidonic acid cannot be synthesized from C precursors; hence, they can be categorized as dietary essential fatty acids in B. splendens. EPA can be converted into DHA in B. splendens via the so-called Sprecher pathway. However, given that fads2 is only expressed in the brain, it is unlikely that the capacity of B. splendens to biosynthesize DHA from EPA can fulfill its physiological requirements. These results will be useful to researchers developing B. splendens aquaculture methods.

摘要

黄鳍金枪鱼是东亚国家一种具有商业价值的重要深海鱼类。由于该物种的野生种群数量一直在减少,因此迫切需要开发水产养殖系统。在本研究中,我们研究了长链多不饱和脂肪酸(LC-PUFA)对黄鳍金枪鱼的需求,LC-PUFA 是许多肉食性海洋鱼类的必需膳食成分。黄鳍金枪鱼肌肉、肝脏和胃内容物的脂肪酸谱表明,它从其自然饮食中获得了相当水平的二十碳五烯酸(EPA)和二十二碳六烯酸(DHA)。从黄鳍金枪鱼中鉴定出的脂肪酸去饱和酶(Fads2)和三种延伸酶(Elovl5、Elovl4a 和 Elovl4b)的功能特征证实了它们在 LC-PUFA 生物合成中的酶活性。Fads2 表现出 Δ6 和 Δ8 双功能去饱和酶活性。Elovl5 对 C 和 C PUFA 底物表现出优先的延伸酶活性,而 Elovl4a 和 Elovl4b 对各种 C 底物表现出活性。鉴于 Fads2 没有 Δ5 去饱和酶活性,且在黄鳍金枪鱼基因组中没有发现其他 fads 样序列,EPA 和花生四烯酸不能从 C 前体合成;因此,它们可以被归类为黄鳍金枪鱼的膳食必需脂肪酸。EPA 可以通过所谓的 Sprecher 途径在黄鳍金枪鱼中转化为 DHA。然而,由于 fads2 仅在大脑中表达,黄鳍金枪鱼从 EPA 生物合成 DHA 的能力不太可能满足其生理需求。这些结果将对开发黄鳍金枪鱼水产养殖方法的研究人员有用。

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本文引用的文献

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A complete enzymatic capacity for biosynthesis of docosahexaenoic acid (DHA, 22 : 6n-3) exists in the marine Harpacticoida copepod .海洋桡足类中存在二十二碳六烯酸(DHA,22 : 6n-3)生物合成的完整酶能力。
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Two alternative pathways for docosahexaenoic acid (DHA, 22:6n-3) biosynthesis are widespread among teleost fish.二十二碳六烯酸(DHA,22:6n-3)的生物合成有两种替代途径在硬骨鱼类中广泛存在。
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