NARIC, Agricultural Biotechnology Institute, Gödöllő, Hungary.
PLoS One. 2021 May 6;16(5):e0250858. doi: 10.1371/journal.pone.0250858. eCollection 2021.
Grafting experiments have shown that photoperiod-dependent induction of tuberisation in potato (Solanum tuberosum L.) is controlled by multiple overlapping signals, including mobile proteins, mRNAs, miRNAs and phytohormones. The effect of vegetative organs and tubers at metabolite level and vice versa, however, has not been studied in detail in potato. To unravel the influence of vegetative organs on the primary polar metabolite content of potato tubers and the effect of tuberisation on the metabolite content of leaves grafting experiments were carried out. Two potato cultivars, Hópehely (HP) and White Lady (WL), were homo- and hetero-grafted, and the effects of grafting were investigated in comparison to non-grafted controls. Non-targeted metabolite analysis using gas chromatography-mass spectrometry showed that the major difference between HP and WL tubers is in sucrose concentration. The sucrose level was higher in HP than in WL tubers and was not changed by grafting, suggesting that the sucrose concentration of tubers is genetically determined. The galactinol level was 8-fold higher in the WL leaves than in the HP leaves and, unlike the sucrose concentration of tubers, was altered by grafting. A positive correlation between the growth rate of the leaves and the time of tuber initiation was detected. The time of tuber initiation was delayed in the WL rootstocks by HP scions and shortened in the HP rootstocks by WL scions, supporting the previous finding that tuberisation is triggered by source-derived mobile signals.
嫁接实验表明,马铃薯(Solanum tuberosum L.)的光周期依赖性块茎形成受多种重叠信号的控制,包括移动蛋白、mRNA、miRNA 和植物激素。然而,在马铃薯中,尚未详细研究营养器官和块茎在代谢物水平上的相互作用,以及块茎形成对叶片代谢物含量的影响。为了揭示营养器官对马铃薯块茎初生极性代谢物含量的影响以及块茎形成对叶片代谢物含量的影响,进行了嫁接实验。选择了两个马铃薯品种,Hópehely(HP)和 White Lady(WL),进行了同源和异源嫁接,并与未嫁接的对照进行了比较。使用气相色谱-质谱联用技术进行非靶向代谢物分析表明,HP 和 WL 块茎之间的主要区别在于蔗糖浓度。HP 块茎中的蔗糖浓度高于 WL 块茎,嫁接后没有变化,表明块茎中的蔗糖浓度是由遗传决定的。与块茎中的蔗糖浓度不同,WL 叶片中的半乳糖醇水平比 HP 叶片高 8 倍,并且嫁接后会发生变化。检测到叶片生长速度与块茎起始时间之间存在正相关。HP 接穗在 WL 砧木上的块茎起始时间延迟,而 WL 接穗在 HP 砧木上的块茎起始时间缩短,这支持了先前的发现,即块茎形成是由源衍生的移动信号触发的。
