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不同盐度胁迫对淡水小龙虾(,吉拉德,1852年)转录组反应的影响

Effects of Different Salinity Stress on the Transcriptomic Responses of Freshwater Crayfish (, Girard, 1852).

作者信息

Luo Lei, Yang Li-Shi, Huang Jian-Hua, Jiang Shi-Gui, Zhou Fa-Lin, Li Yun-Dong, Jiang Song, Yang Qi-Bin

机构信息

Key Laboratory of South China Sea Fishery Resources Exploitation and Utilization, Ministry of Agriculture and Rural Affairs, South China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510300, China.

Shenzhen Base of South China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Shenzhen 518108, China.

出版信息

Biology (Basel). 2024 Jul 16;13(7):530. doi: 10.3390/biology13070530.

DOI:10.3390/biology13070530
PMID:39056722
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11273973/
Abstract

Salinization of freshwater ecosystems is a pressing global issue. Changes in salinity can exert severe pressure on aquatic animals and jeopardize their survival. is a valuable freshwater aquaculture species that exhibits some degree of salinity tolerance, making it an excellent research model for freshwater aquaculture species facing salinity stress. In the present study, crayfish were exposed to acute low salt (6 ppt) and high salt (18 ppt) conditions. The organisms were continuously monitored at 6, 24, and 72 h using RNA-Seq to investigate the mechanisms of salt stress resistance. Transcriptome analysis revealed that the crayfish responded to salinity stress with numerous differentially expressed genes, and most of different expression genes was observed in high salinity group for 24h. GO and KEGG enrichment analyses indicated that metabolic pathways were the primary response pathways in crayfish under salinity stress. This suggests that crayfish may use metabolic pathways to compensate for energy loss caused by osmotic stress. Furthermore, gene expression analysis revealed the differential expression of immune and antioxidant-related pathway genes under salinity stress, implying that salinity stress induces immune disorders in crayfish. More genes related to cell proliferation, differentiation, and apoptosis, such as the Foxo, Wnt, Hippo, and Notch signaling pathways, responded to high-salinity stress. This suggests that regulating the cellular replication cycle and accelerating apoptosis may be necessary for crayfish to cope with high-salinity stress. Additionally, we identified 36 solute carrier family (SLC) genes related to ion transport, depicting possible ion exchange mechanisms in crayfish under salinity stress. These findings aimed to establish a foundation for understanding crustacean responses to salinity stress and their osmoregulatory mechanisms.

摘要

淡水生态系统的盐渍化是一个紧迫的全球性问题。盐度变化会对水生动物施加巨大压力并危及它们的生存。小龙虾是一种有价值的淡水养殖物种,具有一定程度的耐盐性,使其成为面临盐度胁迫的淡水养殖物种的优秀研究模型。在本研究中,小龙虾暴露于急性低盐(6 ppt)和高盐(18 ppt)条件下。在6、24和72小时使用RNA测序对这些生物进行连续监测,以研究抗盐胁迫的机制。转录组分析表明,小龙虾对盐度胁迫有许多差异表达基因做出反应,并且大多数差异表达基因在高盐度组24小时时被观察到。基因本体(GO)和京都基因与基因组百科全书(KEGG)富集分析表明,代谢途径是盐度胁迫下小龙虾的主要反应途径。这表明小龙虾可能利用代谢途径来补偿由渗透胁迫引起的能量损失。此外,基因表达分析揭示了盐度胁迫下免疫和抗氧化相关途径基因的差异表达,这意味着盐度胁迫会诱导小龙虾的免疫紊乱。更多与细胞增殖、分化和凋亡相关的基因,如叉头框蛋白O(Foxo)、Wnt、Hippo和Notch信号通路,对高盐胁迫做出反应。这表明调节细胞复制周期和加速凋亡可能是小龙虾应对高盐胁迫所必需的。此外,我们鉴定了36个与离子转运相关的溶质载体家族(SLC)基因,描绘了盐度胁迫下小龙虾可能的离子交换机制。这些发现旨在为理解甲壳类动物对盐度胁迫的反应及其渗透调节机制奠定基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e680/11273973/34a1c2fe35de/biology-13-00530-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e680/11273973/0720fc95f64f/biology-13-00530-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e680/11273973/91e9a6e4ac88/biology-13-00530-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e680/11273973/72fabe8b2206/biology-13-00530-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e680/11273973/34a1c2fe35de/biology-13-00530-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e680/11273973/0720fc95f64f/biology-13-00530-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e680/11273973/91e9a6e4ac88/biology-13-00530-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e680/11273973/72fabe8b2206/biology-13-00530-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e680/11273973/34a1c2fe35de/biology-13-00530-g007.jpg

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