Mechanisms underlining Kelp (Saccharina japonica) adaptation to relative high seawater temperature
Li Guo,
Xiaojie Li,
Shuxiu Chen,
Yan Li,
Weiwei Wang,
Shiju Luo,
Liming Jiang,
Hang Liu,
Xiaohui Pan,
Yanan Zong,
Leili Feng,
Fuli Liu,
Linan Zhang,
Guiqi Bi,
Guanpin Yang
Affiliations
Li Guo
College of Marine Life Sciences, Ocean University of China (OUC)
Xiaojie Li
Shandong Technology Innovation Center of Algae and Sea Cucumber, Shandong Oriental Ocean Sci-Tech Co., Ltd
Shuxiu Chen
Provincial Key Laboratory of Marine Seed Industry of Shandong, Shandong Oriental Ocean Sci-Tech Co., Ltd
Yan Li
Shandong Technology Innovation Center of Algae and Sea Cucumber, Shandong Oriental Ocean Sci-Tech Co., Ltd
Weiwei Wang
Provincial Key Laboratory of Marine Seed Industry of Shandong, Shandong Oriental Ocean Sci-Tech Co., Ltd
Shiju Luo
Shandong Technology Innovation Center of Algae and Sea Cucumber, Shandong Oriental Ocean Sci-Tech Co., Ltd
Liming Jiang
Shandong Technology Innovation Center of Algae and Sea Cucumber, Shandong Oriental Ocean Sci-Tech Co., Ltd
Hang Liu
College of Marine Life Sciences, Ocean University of China (OUC)
Xiaohui Pan
College of Marine Life Sciences, Ocean University of China (OUC)
Yanan Zong
College of Marine Life Sciences, Ocean University of China (OUC)
Leili Feng
College of Marine Life Sciences, Ocean University of China (OUC)
Fuli Liu
College of Marine Life Sciences, Ocean University of China (OUC)
Linan Zhang
School of Marine Science and Engineering, Qingdao Agriculture University
Guiqi Bi
Key Laboratory of Synthetic Biology of Ministry of Agriculture and Rural Affairs, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences
Guanpin Yang
College of Marine Life Sciences, Ocean University of China (OUC)
Abstract Saccharina japonica has been cultivated in China for almost a century. From Dalian to Fujian, the lowest and the highest seawater temperatures in the period of cultivation increased by 14℃ and 8℃, respectively. Its adaptation to elevated seawater temperature is an example of securing the natural habitats of a species. To decipher the mechanisms underlining S. japonica adaptation to relative high seawater temperature, we assembled ~ 516.3 Mb female gametophyte genome and ~ 540.3 Mb of the male, respectively. The gametophytes isolated from southern China kelp cultivars acclimated to the relative high seawater temperature by transforming amino acids, glycosylating protein, maintaining osmotic pressure, intensifying the innate immune system, and exhausting energy and reduction power through the PEP-pyruvate-oxaloacetate node and the iodine cycle. They adapted to the relative high seawater temperature by transforming amino acids, changing sugar metabolism and intensifying innate immune system. The sex of S. japonica was determined by HMG-sex, and around this male gametophyte determiner the stress tolerant genes become linked to or associated with.
