Cell Biology and Plant Biochemistry, University of Regensburg, Universitätsstraße 31, 93053, Regensburg, Germany.
Mendel Centre for Plant Genomics and Proteomics, Central European Institute of Technology, Masaryk University, Kamenice 5, 62500, Brno, Czech Republic.
Plant Reprod. 2021 Mar;34(1):47-60. doi: 10.1007/s00497-020-00399-5. Epub 2020 Nov 30.
Analyses of secretomes of in vitro grown pollen tubes from Amborella, maize and tobacco identified many components of processes associated with the cell wall, signaling and metabolism as well as novel small secreted peptides. Flowering plants (angiosperms) generate pollen grains that germinate on the stigma and produce tubes to transport their sperm cells cargo deep into the maternal reproductive tissues toward the ovules for a double fertilization process. During their journey, pollen tubes secrete many proteins (secreted proteome or secretome) required, for example, for communication with the maternal reproductive tissues, to build a solid own cell wall that withstands their high turgor pressure while softening simultaneously maternal cell wall tissue. The composition and species specificity or family specificity of the pollen tube secretome is poorly understood. Here, we provide a suitable method to obtain the pollen tube secretome from in vitro grown pollen tubes of the basal angiosperm Amborella trichopoda (Amborella) and the Poaceae model maize. The previously published secretome of tobacco pollen tubes was used as an example of eudicotyledonous plants in this comparative study. The secretome of the three species is each strongly different compared to the respective protein composition of pollen grains and tubes. In Amborella and maize, about 40% proteins are secreted by the conventional "classic" pathway and 30% by unconventional pathways. The latter pathway is expanded in tobacco. Proteins enriched in the secretome are especially involved in functions associated with the cell wall, cell surface, energy and lipid metabolism, proteolysis and redox processes. Expansins, pectin methylesterase inhibitors and RALFs are enriched in maize, while tobacco secretes many proteins involved, for example, in proteolysis and signaling. While the majority of proteins detected in the secretome occur also in pollen grains and pollen tubes, and correlate in the number of mapped peptides with relative gene expression levels, some novel secreted small proteins were identified. Moreover, the identification of secreted proteins containing pro-peptides indicates that these are processed in the apoplast. In conclusion, we provide a proteome resource from three distinct angiosperm clades that can be utilized among others to study the localization, abundance and processing of known secreted proteins and help to identify novel pollen tube secreted proteins for functional studies.
从 Amborella、玉米和烟草的体外花粉管分泌组分析中鉴定出许多与细胞壁、信号转导和代谢过程相关的成分,以及新型的小分泌肽。开花植物(被子植物)产生花粉粒,花粉粒在柱头萌发并产生花粉管,将其精子细胞货物输送到母体生殖组织深处,向胚珠进行双受精过程。在它们的旅程中,花粉管分泌许多蛋白质(分泌蛋白质组或分泌组),例如,与母体生殖组织进行通信,构建一个坚固的自身细胞壁,同时使母体细胞壁组织变软,以承受其高膨压。花粉管分泌组的组成、物种特异性或家族特异性知之甚少。在这里,我们提供了一种从基础被子植物 Amborella trichopoda(Amborella)和禾本科模式玉米的体外生长花粉管中获得花粉管分泌组的合适方法。烟草花粉管的先前发表的分泌组被用作本比较研究中真双子叶植物的一个例子。与花粉粒和花粉管的各自蛋白质组成相比,这三种物种的分泌组都有很大的不同。在 Amborella 和玉米中,约 40%的蛋白质通过传统的“经典”途径分泌,30%通过非传统途径分泌。后者途径在烟草中得到扩展。在分泌组中富集的蛋白质特别参与与细胞壁、细胞表面、能量和脂质代谢、蛋白水解和氧化还原过程相关的功能。在玉米中富集扩展素、果胶甲酯酶抑制剂和 RALFs,而烟草分泌许多参与蛋白水解和信号转导的蛋白质。虽然在分泌组中检测到的大多数蛋白质也存在于花粉粒和花粉管中,并且在映射肽的数量上与相对基因表达水平相关,但也鉴定出一些新型分泌的小蛋白质。此外,鉴定出含有前肽的分泌蛋白表明这些蛋白在质外体中进行加工。总之,我们提供了来自三个不同的被子植物分支的蛋白质组资源,除其他外,可用于研究已知分泌蛋白的定位、丰度和加工,并有助于鉴定新型花粉管分泌蛋白进行功能研究。
