Kaempferol rhamnoside catabolism in rosette leaves of senescing Arabidopsis and postharvest stored radish

Flavonol rhamnosides including kaempferitrin (i.e., kaempferol 3- O -α-rhamnoside-7- O -α-rhamnoside) occur throughout the plant kingdom. Mechanisms governing flavonol rhamnoside biosynthesis are established, whereas degradative processes occurring in plants are relatively unknown. Here, we investig...

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Bibliographic Details
Published in:Planta 2022-08, Vol.256 (2), p.36-36, Article 36
Main Authors: Unterlander, Nicole, Mats, Lili, McGary, Laura C., Gordon, Harley O. W., Bozzo, Gale G.
Format: Article
Language:English
Subjects:
Agriculture
Arabidopsis thaliana
Biomedical and Life Sciences
Biosynthesis
Catabolism
Ecology
Flavonols
Forestry
High-performance liquid chromatography
Kaempferol
Leaves
Life Sciences
Liquid chromatography
Metabolites
Original Article
Plant extracts
Plant Sciences
Radishes
Raphanus sativus
Rosette
Senescence
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Summary:Flavonol rhamnosides including kaempferitrin (i.e., kaempferol 3- O -α-rhamnoside-7- O -α-rhamnoside) occur throughout the plant kingdom. Mechanisms governing flavonol rhamnoside biosynthesis are established, whereas degradative processes occurring in plants are relatively unknown. Here, we investigated the catabolic events affecting kaempferitrin status in the rosette leaves of Arabidopsis thaliana L. Heynh. (Arabidopsis) and Raphanus sativus L. (radish), respectively, in response to developmental senescence and postharvest handling. On a per plant basis, losses of several kaempferol rhamnosides including kaempferitrin were apparent in senescing leaves of Arabidopsis during development and postharvest radish stored at 5 °C. Conversely, small pools of kaempferol 7- O -α-rhamnoside (K7R), kaempferol 3- O -α-rhamnoside (K3R), and kaempferol built up in senescing leaves of both species. Evidence is provided for ⍺-rhamnosidase activities targeting the 7- O -α-rhamnoside of kaempferitrin and K7R in rosette leaves of both species. An HPLC analysis of in vitro assays of clarified leaf extracts prepared from developing Arabidopsis and postharvest radish determined that these metabolic shifts were coincident with respective 237% and 645% increases in kaempferitrin 7- O -⍺-rhamnosidase activity. Lower activity rates were apparent when these ⍺-rhamnosidase assays were performed with K7R. A radish ⍺-rhamnosidase containing peak eluting from a DEAE-Sepharose Fast Flow column hydrolyzed various 7- O -rhamnosylated flavonols, as well as kaempferol 3- O -β-glucoside. Together it is apparent that the catabolism of 7- O -α-rhamnosylated kaempferol metabolites in senescing plant leaves is associated with a flavonol 7- O -α-rhamnoside-utilizing α-rhamnosidase.
ISSN:0032-0935
1432-2048
DOI:10.1007/s00425-022-03949-5