De novo transcriptomics analysis revealed a global reprogramming towards dehydration and hyposalinity in Bangia fuscopurpurea gametophytes (Rhodophyta)
文献类型: 外文期刊
第一作者: Wang, Wenjun
作者: Wang, Wenjun;Sun, Xiutao;Liu, Fuli;Liang, Zhourui;Wang, Feijiu;Wang, Wenjun;Sun, Xiutao;Liu, Fuli;Liang, Zhourui;Wang, Feijiu;Shen, Zonggen;Zhu, Jianyi
作者机构:
关键词: Bangia fuscopurpurea; Dehydration; Hyposalinity; Photosynthesis; Plasma membrane H+-ATPase
期刊名称:JOURNAL OF APPLIED PHYCOLOGY ( 影响因子:3.215; 五年影响因子:3.612 )
ISSN: 0921-8971
年卷期: 2019 年 31 卷 1 期
页码:
收录情况: SCI
摘要: Bangia fuscopurpurea is a farmed species in the ancient family Bangiales. It inhabits upper intertidal zones and suffers periodical desiccation and osmotic stress. The transcriptomic regulation under dehydration and hyposalinity was investigated. The differentially expressed genes (DEGs) accounted for 18.7% of the unigenes obtained by de novo transcriptome assembly (vertical bar log(2)fold-change vertical bar >= 1, FDR <= 0.001). Over 72% of the DEGs were downregulated under stress. The DEGs were predominantly enriched into the KEGG pathways "metabolic pathways", "ribosome", biosynthesis of secondary metabolites, protein processing in endoplasmic reticulum, and oxidative phosphorylation. The optimum photosynthetic efficiency (F-v/F-m) and photochemical quenching (qP) dropped significantly with 89% relative water loss and recovered rapidly after being rehydrated. Most DEGs regarding "photosynthesis" and "C3 carbon fixation" were upregulated in the dehydrated thalli, which may enable the thalli to gain photosynthetic recovery once being rehydrated. F-v/F-m and qP decreased significantly with 1h of 90% freshwater treatment and then recovered to the control level 1day later. With 6h hyposaline treatment, expression of plasma membrane H+-ATPase genes was strongly and predominantly induced while the mRNA abundance of vacuolar, chloroplastic, and mitochondrial H+-ATPase genes decreased or showed no significant change. Some transporter, ion channel, and transmembrane protein genes together with the gene-encoding key enzymes involving in proline and heteroside metabolism were upregulated under hyposalinity. The results indicated that transmembrane exchange of ion and osmolytes was induced under hyposalinity to balance the osmotic fluctuation, which seemed to be triggered by plasma membrane H+-ATPases. These findings will facilitate elucidating the stress acclimation mechanism of B. fuscopurpurea.
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