对三个鲥鱼种群的全基因组重测序揭示了与免疫、视觉、迁移和渗透压调节相关基因的遗传变异。
Whole-genome resequencing of three Coilia nasus population reveals genetic variations in genes related to immune, vision, migration, and osmoregulation.
机构信息
Wuxi Fisheries College, Nanjing Agricultural University, Wuxi, 214081, Jiangsu, China.
Key Laboratory of Freshwater Fisheries and Germplasm Resources Utilization, Ministry of Agriculture, Freshwater Fisheries Research Center, Chinese Academy of Fishery Sciences, Wuxi, 214081, Jiangsu, China.
出版信息
BMC Genomics. 2021 Dec 6;22(1):878. doi: 10.1186/s12864-021-08182-0.
BACKGROUND
Coilia nasus is an important anadromous fish, widely distributed in China, Japan, and Korea. Based on morphological and ecological researches of C. nasus, two ecotypes were identified. One is the anadromous population (AP). The sexually mature fish run thousands of kilometers from marine to river for spawning. Another one is the resident population which cannot migrate. Based on their different habitats, they were classified into landlocked population (LP) and sea population (SP) which were resident in the freshwater lake and marine during the entire lifetime, respectively. However, they have never been systematically studied. Moreover, C. nasus is declining sharply due to overfishing and pollution recently. Therefore, further understandings of C. nasus populations are needed for germplasm protection.
RESULTS
Whole-genome resequencing of AP, LP, and SP were performed to enrich the understanding of different populations of C. nasus. At the genome level, 3,176,204, 3,307,069, and 3,207,906 single nucleotide polymorphisms (SNPs) and 1,892,068, 2,002,912, and 1,922,168 insertion/deletion polymorphisms (InDels) were generated in AP, LP, and SP, respectively. Selective sweeping analysis showed that 1022 genes were selected in AP vs LP; 983 genes were selected in LP vs SP; 116 genes were selected in AP vs SP. Among them, selected genes related to immune, vision, migration, and osmoregulation were identified. Furthermore, their expression profiles were detected by quantitative real-time PCR. Expression levels of selected genes related to immune, and vision in LP were significantly lower than AP and SP. Selected genes related to migration in AP were expressed significantly more highly than LP. Expression levels of selected genes related to osmoregulation were also detected. The expression of NKAα and NKCC1 in LP were significantly lower than SP, while expression of NCC, SLC4A4, NHE3, and V-ATPase in LP was significantly higher than SP.
CONCLUSIONS
Combined to life history of C. nasus populations, our results revealed that the molecular mechanisms of their differences of immune, vision, migration, and osmoregulation. Our findings will provide a further understanding of different populations of C. nasus and will be beneficial for wild C. nasus protection.
背景
鲥鱼是一种重要的溯河洄游鱼类,广泛分布于中国、日本和韩国。基于鲥鱼的形态学和生态学研究,已鉴定出两种生态型。一种是溯河洄游种群(AP)。性成熟的鱼会从海洋洄游数千公里到河流进行产卵。另一种是定居种群,无法洄游。根据它们不同的栖息地,它们被分为内陆种群(LP)和海洋种群(SP),它们分别终生生活在淡水湖泊和海洋中。然而,它们从未被系统地研究过。此外,由于过度捕捞和污染,鲥鱼的数量近年来急剧下降。因此,为了保护种质资源,需要进一步了解鲥鱼种群。
结果
对 AP、LP 和 SP 进行全基因组重测序,以丰富对不同鲥鱼种群的认识。在基因组水平上,AP、LP 和 SP 分别产生了 3,176,204、3,307,069 和 3,207,906 个单核苷酸多态性(SNP)和 1,892,068、2,002,912 和 1,922,168 个插入/缺失多态性(InDel)。选择扫捕分析表明,AP 与 LP 相比有 1022 个基因被选择;LP 与 SP 相比有 983 个基因被选择;AP 与 SP 相比有 116 个基因被选择。其中,鉴定出与免疫、视觉、洄游和渗透压调节相关的选择基因。此外,通过定量实时 PCR 检测了它们的表达谱。LP 中与免疫和视觉相关的选择基因的表达水平明显低于 AP 和 SP。AP 中与洄游相关的选择基因的表达水平明显高于 LP。还检测了与渗透压调节相关的选择基因的表达水平。LP 中的 NKAα 和 NKCC1 表达水平明显低于 SP,而 LP 中的 NCC、SLC4A4、NHE3 和 V-ATPase 表达水平明显高于 SP。
结论
结合鲥鱼种群的生活史,我们的研究结果揭示了它们在免疫、视觉、洄游和渗透压调节方面差异的分子机制。我们的研究结果将进一步加深对不同鲥鱼种群的了解,有助于保护野生鲥鱼。
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