Li Jin, Wang Yutao, Zou Wenxuan, Jian Liufang, Fu Ying, Zhao Jie
State Key Laboratory of Hybrid Rice, College of Life Sciences, Wuhan University, Wuhan, 430072, China.
State Key Laboratory of Plant Physiology and Biochemistry, College of Biological Sciences, China Agricultural University, Beijing, 100193, China.
Plant J. 2021 Aug;107(3):801-816. doi: 10.1111/tpj.15347. Epub 2021 Jun 2.
The NDC80 complex is a conserved eukaryotic complex composed of four subunits (NUF2, SPC25, NDC80, and SPC24). In yeast and animal cells, the complex is located at the outer layer of the kinetochore, connecting the inner layer of the kinetochore and spindle microtubules (MTs) during cell division. In higher plants, the relationship of the NDC80 complex with MTs is still unclear. In this study, we characterized the biological function of AtNUF2, a subunit of the Arabidopsis NDC80 complex. We found that AtNUF2 is widely expressed in various organs, especially in different stages of embryonic development. It was verified that AtNUF2 co-localized with α-tubulin on MTs during mitosis by immunohistochemical assays. Mutation of AtNUF2 led to severe mitotic defects, not only in the embryo and endosperm, but also in seedlings, resulting in seed abortion and stagnating seedling growth. Furthermore, the biological function of AtNUF2 was studied using partially complemented nuf2-3/- (nuf2-3/- ) seedlings. The chromosome bridge and lagging chromatids occurred in nuf2-3/- root apical meristem cells, along with aberration of spindle MTs, resulting in blocked root growth. Meanwhile, the direct binding of AtNUF2 and AtSPC25 to MTs was determined by an MT co-sedimentation assay in vitro. This study revealed the function of AtNUF2 in mitosis and the underlying mechanisms, modulating spindle MT organization and ensuring chromosome segregation during embryo, endosperm, and root development, laying the foundation for subsequent research of the NDC80 complex.
NDC80复合体是一种保守的真核复合体,由四个亚基(NUF2、SPC25、NDC80和SPC24)组成。在酵母和动物细胞中,该复合体位于动粒的外层,在细胞分裂过程中连接动粒的内层和纺锤体微管(MTs)。在高等植物中,NDC80复合体与微管的关系仍不清楚。在本研究中,我们对拟南芥NDC80复合体的一个亚基AtNUF2的生物学功能进行了表征。我们发现AtNUF2在各种器官中广泛表达,尤其是在胚胎发育的不同阶段。通过免疫组织化学分析证实,在有丝分裂期间AtNUF2与α-微管蛋白在微管上共定位。AtNUF2的突变不仅导致胚胎和胚乳,还导致幼苗出现严重的有丝分裂缺陷,导致种子败育和幼苗生长停滞。此外,我们使用部分互补的nuf2-3/-(nuf2-3/-)幼苗研究了AtNUF2的生物学功能。nuf2-3/-根尖分生组织细胞中出现染色体桥和滞后染色单体,同时纺锤体微管出现畸变,导致根生长受阻。同时,通过体外微管共沉降试验确定了AtNUF2和AtSPC25与微管的直接结合。本研究揭示了AtNUF2在有丝分裂中的功能及其潜在机制,调节纺锤体微管组织并确保胚胎、胚乳和根发育过程中的染色体分离,为后续对NDC80复合体的研究奠定了基础。
