Division of Life Science, Hong Kong University of Science and Technology, Kowloon, Hong Kong.
Department of Ocean Science, Hong Kong University of Science and Technology, Kowloon, Hong Kong.
Environ Microbiol. 2022 Dec;24(12):5936-5950. doi: 10.1111/1462-2920.16135. Epub 2022 Aug 4.
Dinoflagellates are important aquatic microbes and major harmful algal bloom (HAB) agents that form invasive species through ship ballast transfer. UV-C installations are recommended for ballast treatments and HAB controls, but there is a lack of knowledge in dinoflagellate responses to UV-C. We report here dose-dependent cell cycle delay and viability loss of dinoflagellate cells irradiated with UV-C, with significant proliferative reduction at 800 Jm doses or higher, but immediate LD50 was in the range of 2400-3200 Jm . At higher dosages, some dinoflagellate cells surprisingly survived after days of recovery incubation, and continued viability loss, with samples exhibiting DNA fragmentations per proliferative resumption. Sequential cell cycle postponements, suggesting DNA damages were repaired over one cell cycle, were revealed with flow cytometric analysis and transcriptomic analysis. Over a sustained level of other DNA damage repair pathways, transcript elevation was observed only for several components of base pair repair and mismatch repair. Cumulatively, our findings demonstrated special DNA damage responses in dinoflagellate cells, which we discussed in relation to their unique chromo-genomic characters, as well as indicating resilience of dinoflagellate cells to UV-C.
甲藻是重要的水生微生物和主要的有害藻类(HAB),它们通过船舶压载转移形成入侵物种。紫外线-C 装置被推荐用于压载处理和 HAB 控制,但对于甲藻对紫外线-C 的反应知之甚少。我们在这里报告了紫外线-C 照射的甲藻细胞的剂量依赖性细胞周期延迟和活力丧失,在 800 Jm 剂量或更高剂量下,显著减少了增殖,但立即半数致死剂量(LD50)在 2400-3200 Jm 范围内。在更高的剂量下,一些甲藻细胞在恢复孵育数天后令人惊讶地存活下来,并继续失去活力,随着增殖恢复,样品表现出 DNA 片段化。通过流式细胞术分析和转录组分析揭示了连续的细胞周期推迟,表明 DNA 损伤在一个细胞周期内得到了修复。在持续水平的其他 DNA 损伤修复途径中,仅观察到碱基对修复和错配修复的几个组件的转录水平升高。总之,我们的研究结果表明,甲藻细胞具有特殊的 DNA 损伤反应,我们将其与它们独特的染色体基因组特征联系起来进行了讨论,并表明了甲藻细胞对紫外线-C 的恢复能力。
