Gene expression patterns of sea urchins (Strongylocentrotus intermedius) exposed to different combinations of temperature and hypoxia

小桶 生物 转录组 基因 基因表达 基因表达谱 RNA序列 细胞生物学 遗传学
作者
Pengfei Hao,Beichen Ding,Lingshu Han,Jiahui Xie,Yanglei Wu,Xin Jin,Xianglei Zhang,Wenpei Wang,Luo Wang,Weijie Zhang,Yaqing Chang,Jun Ding
出处
期刊:Comparative Biochemistry and Physiology Part D: Genomics and Proteomics [Elsevier BV]
卷期号:41: 100953-100953 被引量:6
标识
DOI:10.1016/j.cbd.2021.100953
摘要

Strongylocentrotus intermedius is one of the most economically valuable sea urchin species in China, and its growth and survival are severely constrained by ocean warming and the hypoxia that often accompanies high water temperatures. To elucidate the molecular mechanisms of S. intermedius that regulate gene expression in response to multi-causal environmental stresses. We performed a de novo transcriptome analysis of coelomocyte from S. intermedius to heat (25 °C), hypoxia (2 mg/L), and the combined stress. We identified 35,635, 29,107, and 29,440 differentially expressed genes (DEGs) in S. intermedius cultured under high temperature, low oxygen, and combined stress, respectively. Further Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways analyses revealed that these DEGs mainly enriched the functional categories of "Protein processing in endoplasmic reticulum," and "Glutathione metabolism" by heat stress, such as HSP70, GSTO1, PDIA4. After hypoxic stress, "Notch signaling pathway" and metabolism-related pathways such as "Glycerolipid metabolism", "Pyruvate metabolism" were significantly enriched. Exposure to combined stress resulted in a two-factor additive effect at the transcriptome level and have a more extensive impact on the immune correlated pathways in S. intermedius than single stress, the expression of related immune genes (C3, C5, and AIFM2) were up-regulated. Quantitative real-time PCR (qRT-PCR) analysis of the expression of 18 DEGs confirmed the RNA-Seq results. Observations in the present study will improve the understanding of the molecular mechanism of S. intermedius in response to multi-causal environmental stress.
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