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基于单细胞转录组的水稻稀有气孔细胞类型鉴定
Identification of rare cell types in the single-cell transcriptome of rice - a case study of stomata
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摘要: 为了初步探讨禾本科植物气孔发育和运动的调控机制,本研究在初次聚类的基础上,利用获得的所有表皮细胞进行亚聚类分析;同时结合更多标记基因,在亚聚类Resolution值为2.6时成功的从水稻叶片单细胞转录组数据中获得了独立且稳定的保卫细胞和副卫细胞的聚类,分别包括了12个保卫细胞和17个副卫细胞。GO富集分析揭示了“基于维管的运动”、“信号转导”和“对刺激的反应”等气孔后期发育的生物学特征;基因调控网络分析揭示了OsDOF11、OsMAPK2、OsNAC75、OsABCG4、OsERF52和OsSWEET2b等基因及其潜在的相互作用网络。其研究结果为植物稀有细胞类型的鉴定提供了方法参考,同时也为其他禾本科植物气孔细胞的研究提供了新的标记基因;与此同时,解析调控网络中可能起重要作用的基因,对解析气孔发育的分子基础和培育抗逆优良性状水稻品种具有重要意义。Abstract: In order to preliminarily explore the regulatory mechanism of development and movement of grass stomata, in this study, on the basis of the primary clustering, we successfully obtained independent and stable clusters of guard cells and subsidiary cells from single-cell transcriptome data in rice leaves by sub-clustering analysis of all the obtained epidermal cells when the resolution value of sub-clustering was set at 2.6, combined with more marker genes. They consist of 12 guard cells and 17 subsidiary cells, respectively. GO enrichment analysis revealed the biological processes of late stomatal development such as "microtubule-based movement", “signal transduction” and "response to stimulus". Gene regulatory network analysis revealed genes such as OsDOF11, OsMAPK2, OsNAC75, OsABCG4, OsERF52 and OsSWEET2b and their potential interaction networks. The results of this study provide a methodological reference for the identification of rare cell types in plants, and also provides new marker genes for the study of stomatal cells in other grasses. At the same time, the analysis of the genes that may play important roles in the regulatory networks is of great significance for the analysis of the molecular basis of stomatal development and the cultivation of rice breeding with excellent resistance traits.