Biosynthesis of benzylisoquinoline alkaloids in Corydalis bracteata: Compartmentation and seasonal dynamics

Twelve benzylisoquinolinealkaloidswerefoundinageophyte Corydalis bracteata. Allofthemaresynthesized de novo in everyplantorganandnottranslocated via xylem/phloem. •Twelve alkaloids have been identified in a geophyte Corydalis bracteata by LC–MS/MS.•All parts of C. bracteata accumulate significant am...

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Published in:Phytochemistry (Oxford) 2013-08, Vol.92, p.60-70
Main Authors: Khodorova, Nadezda V., Shavarda, Alexey L., Lequart-Pillon, Michelle, Laberche, Jean-Claude, Voitsekhovskaja, Olga V., Boitel-Conti, Michèle
Format: Article
Language:English
Subjects:
alkaloids
Apoplast
autumn
Benzylisoquinoline alkaloids
Benzylisoquinolines - chemistry
Benzylisoquinolines - metabolism
biosynthesis
buds
Corydalis
Corydalis - chemistry
Corydalis - metabolism
Corydalis bracteata
geophytes
Isotopic labeling
leaves
Molecular Structure
Papaveraceae
phloem
roots
sap
Seasonal variation
Seasons
spring
stems
Thermodynamics
tubers
vegetation
xylem
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Summary:Twelve benzylisoquinolinealkaloidswerefoundinageophyte Corydalis bracteata. Allofthemaresynthesized de novo in everyplantorganandnottranslocated via xylem/phloem. •Twelve alkaloids have been identified in a geophyte Corydalis bracteata by LC–MS/MS.•All parts of C. bracteata accumulate significant amounts of alkaloids.•No long-distance transport of alkaloids occurs between plant organs.•For the first time, the sites of alkaloid biosynthesis in genus Corydalis are reported.•Every organ is capable of biosynthesis of all alkaloids detected in C. bracteata. Numerous species of the genus Corydalis (Papaveraceae) produce a large spectrum of benzylisoquinoline alkaloids (BIA), some of which are of potential therapeutic value, but no information on sites of their biosynthesis and compartmentation is available. This study focuses on the biosynthesis, compartmentation and seasonal dynamics of BIA in Corydalis bracteata (Steph. ex Willd) Pers., a geophyte with a very short spring vegetation period, which for the rest of the year is represented by underground tubers with buds. It was found that all organs of C. bracteata contained high levels of BIA, the highest concentrations being detected in underground tuber buds in early autumn. Neither xylem nor phloem sap contained alkaloids throughout the year but BIA were present in the apoplastic wash fluid of the tuber. The absence of long-distance transport of alkaloids was confirmed by the experiment using an isotopically labeled tracer, [ring-13C6]-tyramine: when whole plants were fed with the tracer with via the roots, the alkaloids became labeled in the roots only and not in other organs. However, when detached roots, leaves, tubers and stems were exposed to [ring-13C6]-tyramine, the label was incorporated into alkaloids in all organs. We conclude that no long-distance translocation of alkaloids occurs between organs of C. bracteata, while in the tuber the cell-to-cell transport of alkaloids could occur via the apoplast. In contrast to other BIA-producing species, every organ of C. bracteata was found to be capable of de novo biosynthesis of the full complement of alkaloids.
ISSN:0031-9422
1873-3700
DOI:10.1016/j.phytochem.2013.04.008