Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis
vom Dorp K, Hölzl G, Plohmann C, Eisenhut M, Abraham M, Weber APM, Hanson AD, Dörmann P (2015)
The Plant Cell 27(10): 2846–2859.
Zeitschriftenaufsatz
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Autor*in
vom Dorp, Katharina;
Hölzl, Georg;
Plohmann, Christian;
Eisenhut, MarionUniBi ;
Abraham, Marion;
Weber, Andreas P.M.;
Hanson, Andrew D.;
Dörmann, Peter
Einrichtung
Abstract / Bemerkung
Phytol from chlorophyll degradation can be phosphorylated to phytyl-phosphate and phytyl-diphosphate, the substrate for tocopherol (vitamin E) synthesis. A candidate for the phytyl-phosphate kinase from Arabidopsis thaliana (At1g78620) was identified via a phylogeny-based approach. This gene was designated VITAMIN E DEFICIENT6 (VTE6) because the leaves of the Arabidopsis vte6 mutants are tocopherol deficient. The vte6 mutant plants are incapable of photoautotrophic growth. Phytol and phytyl-phosphate accumulate, and the phytyl-diphosphate content is strongly decreased in vte6 leaves. Phytol feeding and enzyme assays with Arabidopsis and recombinant Escherichia coli cells demonstrated that VTE6 has phytyl-P kinase activity. Overexpression of VTE6 resulted in increased phytyl-diphosphate and tocopherol contents in seeds, indicating that VTE6 encodes phytyl-phosphate kinase. The severe growth retardation of vte6 mutants was partially rescued by introducing the phytol kinase mutation vte5. Double mutant plants (vte5 vte6) are tocopherol deficient and contain more chlorophyll, but reduced amounts of phytol and phytyl-phosphate compared with vte6 mutants, suggesting that phytol or phytyl-phosphate are detrimental to plant growth. Therefore, VTE6 represents the missing phytyl-phosphate kinase, linking phytol release from chlorophyll with tocopherol synthesis. Moreover, tocopherol synthesis in leaves depends on phytol derived from chlorophyll, not on de novo synthesis of phytyl-diphosphate from geranylgeranyl-diphosphate.
Erscheinungsjahr
2015
Zeitschriftentitel
The Plant Cell
Band
27
Ausgabe
10
Seite(n)
2846–2859
ISSN
1040-4651
eISSN
1532-298X
Page URI
https://pub.uni-bielefeld.de/record/2968455
Zitieren
vom Dorp K, Hölzl G, Plohmann C, et al. Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis. The Plant Cell. 2015;27(10): 2846–2859.
vom Dorp, K., Hölzl, G., Plohmann, C., Eisenhut, M., Abraham, M., Weber, A. P. M., Hanson, A. D., et al. (2015). Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis. The Plant Cell, 27(10), 2846–2859. https://doi.org/10.1105/tpc.15.00395
vom Dorp, Katharina, Hölzl, Georg, Plohmann, Christian, Eisenhut, Marion, Abraham, Marion, Weber, Andreas P.M., Hanson, Andrew D., and Dörmann, Peter. 2015. “Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis”. The Plant Cell 27 (10): 2846–2859.
vom Dorp, K., Hölzl, G., Plohmann, C., Eisenhut, M., Abraham, M., Weber, A. P. M., Hanson, A. D., and Dörmann, P. (2015). Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis. The Plant Cell 27, 2846–2859.
vom Dorp, K., et al., 2015. Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis. The Plant Cell, 27(10), p 2846–2859.
K. vom Dorp, et al., “Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis”, The Plant Cell, vol. 27, 2015, pp. 2846–2859.
vom Dorp, K., Hölzl, G., Plohmann, C., Eisenhut, M., Abraham, M., Weber, A.P.M., Hanson, A.D., Dörmann, P.: Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis. The Plant Cell. 27, 2846–2859 (2015).
vom Dorp, Katharina, Hölzl, Georg, Plohmann, Christian, Eisenhut, Marion, Abraham, Marion, Weber, Andreas P.M., Hanson, Andrew D., and Dörmann, Peter. “Remobilization of Phytol from Chlorophyll Degradation Is Essential for Tocopherol Synthesis and Growth of Arabidopsis”. The Plant Cell 27.10 (2015): 2846–2859.
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