Xu Jiahui, Shen Zhuo, Yu Minjie, Sheng Yalan, Yi Zhenzhen
Guangzhou Key Laboratory of Subtropical Biodiversity and Biomonitoring, Guangdong Provincial Key Laboratory for Healthy and Safe Aquaculture, School of Life Science, South China Normal University, Guangzhou, Guangdong, China.
School of Marine Sciences, Sun Yat-Sen University, Zhuhai, Guangdong, China.
J Eukaryot Microbiol. 2023 Mar;70(2):e12958. doi: 10.1111/jeu.12958. Epub 2022 Dec 17.
Ciliates usually with big cell sizes, complex morphological structures, and diverse life cycles, are good model organisms for studying cell proliferation regulation of eukaryotes. Up to date, the molecular regulation mechanisms for the vegetative cell cycle and encystment of these ciliates are poorly understood. Here, transcriptomes of Apodileptus cf. visscheri, which has an asexual vegetative cell cycle and is apt to encyst when environmental conditions become unfavorable, were sequenced to enrich our related knowledge. In this study, three replicates were sequenced for each of four cell stages, including initial period of growth, morphogenesis, cell division, and resting cyst. The significant transcription differences, involving cell cycle, biosynthesis, and energy metabolism pathways, were revealed between the resting cyst and vegetative cell cycle. Further investigations showed that the cell cycle pathway was enriched during morphogenesis stage and cell division stage. Compared to the initial period of growth stage, the differentially expressed genes involved in cellular components and molecular function were significantly enriched during cell division stage, while cellular components and biological processes were significantly enriched during morphogenesis stage. These provide novel insights into a comprehensive understanding at the molecular level of the survival and adaptive mechanism of unicellular eukaryotes.
纤毛虫通常具有较大的细胞大小、复杂的形态结构和多样的生命周期,是研究真核生物细胞增殖调控的良好模式生物。迄今为止,人们对这些纤毛虫的营养细胞周期和包囊形成的分子调控机制了解甚少。在此,对一种具有无性营养细胞周期且在环境条件不利时易于形成包囊的拟阿波狄列虫(Apodileptus cf. visscheri)的转录组进行测序,以丰富我们的相关知识。在本研究中,对四个细胞阶段(包括生长初期、形态发生、细胞分裂和静息包囊)中的每一个阶段都进行了三个重复样本的测序。结果揭示了静息包囊与营养细胞周期之间在细胞周期、生物合成和能量代谢途径方面存在显著的转录差异。进一步研究表明,细胞周期途径在形态发生阶段和细胞分裂阶段富集。与生长初期相比,参与细胞成分和分子功能的差异表达基因在细胞分裂阶段显著富集,而细胞成分和生物学过程在形态发生阶段显著富集。这些研究结果为全面了解单细胞真核生物的生存和适应机制提供了新的分子层面见解。
