A petunia ABC protein controls strigolactone-dependent symbiotic signalling and branching

司他内酯 生物 牵牛花 信号 植物 支化(高分子化学) 细胞生物学 突变体 拟南芥 化学 基因 遗传学 有机化学
作者
Tobias Kretzschmar,Wouter Kohlen,Joëlle Sasse,Lorenzo Borghi,Markus Schlegel,Julien Bachelier,Didier Reinhardt,Ralph Bours,Harro J. Bouwmeester,Enrico Martinoia
出处
期刊:Nature [Nature Portfolio]
卷期号:483 (7389): 341-344 被引量:585
标识
DOI:10.1038/nature10873
摘要

Strigolactones were originally identified as stimulators of the germination of root-parasitic weeds that pose a serious threat to resource-limited agriculture. They are mostly exuded from roots and function as signalling compounds in the initiation of arbuscular mycorrhizae, which are plant-fungus symbionts with a global effect on carbon and phosphate cycling. Recently, strigolactones were established to be phytohormones that regulate plant shoot architecture by inhibiting the outgrowth of axillary buds. Despite their importance, it is not known how strigolactones are transported. ATP-binding cassette (ABC) transporters, however, are known to have functions in phytohormone translocation. Here we show that the Petunia hybrida ABC transporter PDR1 has a key role in regulating the development of arbuscular mycorrhizae and axillary branches, by functioning as a cellular strigolactone exporter. P. hybrida pdr1 mutants are defective in strigolactone exudation from their roots, resulting in reduced symbiotic interactions. Above ground, pdr1 mutants have an enhanced branching phenotype, which is indicative of impaired strigolactone allocation. Overexpression of Petunia axillaris PDR1 in Arabidopsis thaliana results in increased tolerance to high concentrations of a synthetic strigolactone, consistent with increased export of strigolactones from the roots. PDR1 is the first known component in strigolactone transport, providing new opportunities for investigating and manipulating strigolactone-dependent processes.
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