Wuxi Fishery College, Nanjing Agricultural University, Wuxi 214081, China.
Gene. 2013 Aug 1;525(1):11-7. doi: 10.1016/j.gene.2013.04.073. Epub 2013 May 7.
Δ6-Desaturase is the rate-limiting enzyme involved in highly unsaturated fatty acid (HUFA) biosynthesis. There is very little information on the evolution and functional characterization of Δ6Fad-a and Δ6Fad-b in common carp (Cyprinus carpio var. Jian). In the present study, the genomic sequences and structures of two putative Δ6-desaturase-like genes in common carp genome were obtained. We investigated the mRNA expression patterns of Δ6Fad-a and Δ6Fad-b in tissue, hatching carp embryos, larvae by temperature shock and juveniles under nutritional regulation. Our results showed that the two Δ6Fad genes had identical coding exon structures, being comprised of 12 coding exons, and with introns of distinct size and sequence composition. They were not allelic variants of a single gene. Both Δ6Fad genes were highly expressed in liver, intestine (pyloric caeca) and brain. The Δ6Fad-a and Δ6Fad-b mRNAs showed an increase in expression from newly hatched to 25 days after hatching. The expression levels of Δ6Fad-a were obviously regulated by temperature, whereas Δ6Fad-b was not affected by temperature. The regulation of Δ6Fad-a and Δ6Fad-b in response to dietary fatty acid composition was determined in liver, brain and intestine (pyloric caeca) of common carp fed with diets: diet1with fish oil (FO) rich in n-3 HUFA, diet2 with corn oil (CO, 18:2n-6) and diet3 with linseed oil (LO, 18:3n-3). The differential expression of Δ6Fad-a and Δ6Fad-b genes in liver, brain and intestine in common carps was fed with different oil sources, respectively. Further work is in progress to determine the mechanism of differential expression of the Δ6Fad-a and Δ6Fad-b genes in different tissues and the roles of transcription factors in regulating HUFA synthesis.
Δ6-去饱和酶是高度不饱和脂肪酸(HUFA)生物合成中涉及的限速酶。关于鲤鱼(Cyprinus carpio var. Jian)中Δ6Fad-a 和 Δ6Fad-b 的进化和功能特征的信息很少。在本研究中,获得了鲤鱼基因组中两个假定的 Δ6-去饱和酶样基因的基因组序列和结构。我们研究了 Δ6Fad-a 和 Δ6Fad-b 在组织、孵化鲤鱼胚胎、幼虫通过温度冲击和营养调节下的幼鱼中的 mRNA 表达模式。我们的结果表明,这两个 Δ6Fad 基因具有相同的编码外显子结构,由 12 个编码外显子组成,并且内含子的大小和序列组成不同。它们不是单个基因的等位变体。两个 Δ6Fad 基因在肝脏、肠(幽门盲囊)和脑中高度表达。Δ6Fad-a 和 Δ6Fad-b 的 mRNA 表达水平从刚孵化到孵化后 25 天增加。Δ6Fad-a 的表达水平受温度明显调节,而 Δ6Fad-b 不受温度影响。在富含 n-3 HUFA 的鱼油(FO)、玉米油(CO,18:2n-6)和亚麻籽油(LO,18:3n-3)的饮食中,研究了 Δ6Fad-a 和 Δ6Fad-b 在肝脏、脑和肠(幽门盲囊)中的表达对饮食脂肪酸组成的反应。用不同油源喂养的鲤鱼,其 Δ6Fad-a 和 Δ6Fad-b 基因在肝脏、脑和肠中的表达存在差异。正在进行进一步的工作,以确定不同组织中 Δ6Fad-a 和 Δ6Fad-b 基因差异表达的机制以及转录因子在调节 HUFA 合成中的作用。
