BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. Holistic medicine, Lovastatin, rs2230926, VEGFA, Metabolism of xenobiotics, Hepatitis)
Bookmark Forward

Phytol derived from chlorophyll hydrolysis in plants is metabolized via phytenal.

Philipp Gutbrod, Wentao Yang, Goran Vuk Grujicic, Helga Peisker, Katharina Gutbrod, Lin Fang Du, Peter Dörmann

The Journal of biological chemistry 2021 Jan-Jun


filter terms:
  • acid (2)
  • aldehyde (4)
  • arabidopsis (1)
  • ester (3)
  • hydrolysis (2)
  • isoprenoid (1)
  • nitrogen (1)
  • photosynthesis (1)
  • phytol (9)
  • pigment (1)
  • plant leaves (1)
  • plants (4)
  • salt (1)
  • tocopherol (4)
  • toxic effects (1)
    • Sizes of these terms reflect their relevance to your search.

    Phytol is the isoprenoid alcohol bound in ester linkage to chlorophyll, the most abundant photosynthetic pigment in plants. During leaf senescence, large amounts of phytol are released by chlorophyll degradation. However, the pathway of phytol catabolism in plants is unknown. We hypothesized that phytol degradation in plants might involve its oxidation into the long-chain aldehyde phytenal. Using GC-MS for aldehyde quantification after derivatization with methylhydroxylamine, phytenal was identified in leaves, whereas other long-chain aldehydes (phytanal and pristanal) were barely detectable. We found that phytenal accumulates during chlorotic stresses, for example, salt stress, dark-induced senescence, and nitrogen deprivation. The increase in the phytenal content is mediated at least in part independently of enzyme activities, and it is independent of light. Characterization of phytenal accumulation in the pao1 mutant affected in chlorophyll degradation revealed that phytenal is an authentic phytol metabolite derived from chlorophyll breakdown. The increase in phytenal was even stronger in mutants affected in the production of other phytol metabolites including vte5-2 (tocopherol deficient) and pes1 pes2 (fatty acid phytyl ester deficient). Therefore, phytenal accumulation is controlled by competing, alternative pathways of phosphorylation (leading to tocopherol production) or esterification (fatty acid phytyl ester production). As a consequence, the content of phytenal is maintained at low levels, presumably to minimize its toxic effects caused by its highly reactive aldehyde group that can form covalent bonds with and inactivate the amino groups of proteins. Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.

    Citation

    Philipp Gutbrod, Wentao Yang, Goran Vuk Grujicic, Helga Peisker, Katharina Gutbrod, Lin Fang Du, Peter Dörmann. Phytol derived from chlorophyll hydrolysis in plants is metabolized via phytenal. The Journal of biological chemistry. 2021 Jan-Jun;296:100530

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 33713704

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.