4.8 Article

Quantitative analysis of oyster larval proteome provides new insights into the effects of multiple climate change stressors

期刊

GLOBAL CHANGE BIOLOGY
卷 22, 期 6, 页码 2054-2068

出版社

WILEY
DOI: 10.1111/gcb.13249

关键词

climate change; Crassostrea gigas; environmental proteomics; iTRAQ; multiple stressors; ocean acidification

资金

  1. State Key Laboratory in Marine Pollution of City University of Hong Kong
  2. GRF grants from the HKSAR-RGC [705112P, 17304914, 705511P]

向作者/读者索取更多资源

The metamorphosis of planktonic larvae of the Pacific oyster (Crassostrea gigas) underpins their complex life-history strategy by switching on the molecular machinery required for sessile life and building calcite shells. Metamorphosis becomes a survival bottleneck, which will be pressured by different anthropogenically induced climate change-related variables. Therefore, it is important to understand how metamorphosing larvae interact with emerging climate change stressors. To predict how larvae might be affected in a future ocean, we examined changes in the proteome of metamorphosing larvae under multiple stressors: decreased pH (pH 7.4), increased temperature (30 degrees C), and reduced salinity (15 psu). Quantitative protein expression profiling using iTRAQ-LC-MS/MS identified more than 1300 proteins. Decreased pH had a negative effect on metamorphosis by down-regulating several proteins involved in energy production, metabolism, and protein synthesis. However, warming switched on these down-regulated pathways at pH 7.4. Under multiple stressors, cell signaling, energy production, growth, and developmental pathways were up-regulated, although metamorphosis was still reduced. Despite the lack of lethal effects, significant physiological responses to both individual and interacting climate change related stressors were observed at proteome level. The metamorphosing larvae of the C. gigas population in the Yellow Sea appear to have adequate phenotypic plasticity at the proteome level to survive in future coastal oceans, but with developmental and physiological costs.

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