Pinheiro Carla, Wienkoop Stefanie, de Almeida João Feio, Brunetti Cecilia, Zarrouk Olfa, Planchon Sébastien, Gori Antonella, Tattini Massimiliano, Ricardo Cândido Pinto, Renaut Jenny, Teixeira Rita Teresa
Faculdade de Ciências e Tecnologia, Universidade NOVA de Lisboa, Lisbon, Portugal.
Instituto de Tecnologia Química e Biológica, Universidade NOVA de Lisboa, Lisbon, Portugal.
Front Plant Sci. 2019 Jul 30;10:944. doi: 10.3389/fpls.2019.00944. eCollection 2019.
Cork is a renewable, non-wood high valued forest product, with relevant ecological and economic impact in the Mediterranean-type ecosystems. Currently, cork is ranked according to its commercial quality. The most valuable planks are chosen for cork stoppers production. Cork planks with adequate thickness and porosity are classified as stoppable quality cork (SQC). The chemical composition of cork is known, but the regulation of metabolic pathways responsible of cork production and composition, hence of cork quality, is largely unknown. Here, we tested the hypothesis that post-genomic events may be responsible for the development of SQC and N-SQC (non-stoppable quality cork). Here, we show that combined proteomics and targeted metabolomics (namely soluble and cell wall bound phenolics) analyzed on recently formed phellem allows discriminate cork planks of different quality. Phellem cells of SQC and N-SQC displayed different reducing capacity, with consequential impact on both enzymatic pathways (e.g., glycolysis) and other cellular functions, including cell wall assembly and suberization. Glycolysis and respiration related proteins were abundant in both cork quality groups, whereas the level of several proteins associated to mitochondrial metabolism was higher in N-SQC. The soluble and cell wall-bound phenolics in recently formed phellem clearly discriminated SQC from N-SCQ. In our study, SQC was characterized by a high incorporation of aromatic components of the phenylpropanoid pathway in the cell wall, together with a lower content of hydrolysable tannins. Here, we propose that the level of hydrolysable tannins may represent a valuable diagnostic tool for screening recently formed phellem, and used as a proxy for the quality grade of cork plank produced by each tree.
软木是一种可再生的、非木质的高价值林产品,在地中海型生态系统中具有重要的生态和经济影响。目前,软木是根据其商业质量进行分级的。最有价值的板材被选用于软木塞的生产。具有足够厚度和孔隙率的软木板被归类为可用于制作软木塞的优质软木(SQC)。软木的化学成分是已知的,但负责软木生产和成分(进而影响软木质量)的代谢途径的调控在很大程度上尚不清楚。在此,我们检验了一个假设,即后基因组事件可能是导致SQC和非SQC(不可用于制作软木塞的劣质软木)形成的原因。在此,我们表明,对新形成的栓皮层进行联合蛋白质组学和靶向代谢组学分析(即可溶性和细胞壁结合酚类物质)能够区分不同质量的软木板。SQC和非SQC的栓皮层细胞表现出不同的还原能力,这对酶促途径(如糖酵解)和其他细胞功能(包括细胞壁组装和栓质化)都产生了相应影响。糖酵解和呼吸相关蛋白在两种软木质量组中都很丰富,而与线粒体代谢相关的几种蛋白的水平在非SQC中更高。新形成的栓皮层中的可溶性和细胞壁结合酚类物质能够清晰地区分SQC和非SQC。在我们的研究中,SQC的特征是苯丙烷途径的芳香族成分在细胞壁中的高掺入,同时水解单宁的含量较低。在此,我们提出,水解单宁的水平可能是筛选新形成的栓皮层的一种有价值的诊断工具,并可作为每棵树所生产软木板质量等级的指标。
