Research Highlights 研究亮點 45 The Hong Kong Branch research team led by Prof. Hongbin Liu has revealed the metabolic adaptation of Synechococcus to eddy-associated environmental changes through comparative analysis of the genome data of two Synechococcus species from the South China Sea eddies. The research discovery deepens our understanding of the adaptation of S5.2 and S5.3 Synechococcus to different marine environments. Related research has been published in the international scientific journal New Phytologist in December 2021. 参考搜狐新闻 https://www.sohu.com/a/525917484_726570 Reference: New Phytologist 2022, 233, 1828–1842 香港分部刘红斌教授研究团队,通过对 来自南海漩涡中两种聚球藻基因组数据 的比较分析,发现了两种聚球藻适应南 海中尺度涡流现象的基因及分子机制。 该研究成果加深了我们对海洋S5.2 和 S5.3 聚球藻适应不同海洋环境分子机制 的理解。相关研究已于 2021 年12月发表 在国际科学期刊New Phytologist。 Reveal the Metabolic Adaptations of Synechococcus to Eddy-associated Environmental Changes in the South China Sea 解析聚球藻適應南海中尺度渦流現象的分子機制 Prof. Hongbin Liu 刘红斌教授 The Hong Kong University of Science and Technology 香港科技大学 Fig. 1 Sea level anomalies and sampling stations and eddy-induced environmental changes. 图1. 该研究的采样点,以及垂直梯度上温度和盐度的变化 Fig. 2 Schematic representation of the hypothesized metabolic responses of syn-bin1 and syn-bin2 to different eddy environments. 图2. S5.2和S5.3聚球藻适应中尺度涡流现象的代谢过程示意图。
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