Abstract
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.
Highlights
Potato tuber is an underground vegetative storage organ differentiated from stolons
The leaf area as well as the number of tubers was low in the case of HP and homo-grafted HP/HP plants, while these parameters were high in the case of White Lady (WL) and WL/WL plants
We identified the major polar metabolites in leaves and tubers of two commercial potato cultivars and found characteristic differences in the metabolite compositions in both organs of the two cultivars
Summary
Potato tuber is an underground vegetative storage organ differentiated from stolons. In strict short-day tuberising potato genotypes, such as Solanum tuberosum L. subsp. Andigena, the tuberisation is tightly linked to photoperiod. Grafting experiments have proven that the initiation of tuberisation is mediated by graft-transmissible signals, such as mobile proteins, mRNAs, miRNAs and phytohormones [1]. The photoreceptor PHYTOCHROME B (PHYB) has been shown to be involved in the response of potato tuber induction to the photoperiod. Jackson et al [2] showed that PHYB-repressed S. andigena plants tuberise during long days, and the effect was found to be graft-transmissible.
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