A Tomato Tocopherol-Binding Protein Sheds Light on Intracellular α-Tocopherol Metabolism in Plants

Luisa Bermúdez; Talía Del Pozo; Bruno Silvestre Lira; Fabiana de Godoy; Irene Boos; Cecilia Romanò; Viola Previtali; Juliana Almeida; Claire Bréhélin; Ramón Asis; Leandro Quadrana; Diego Demarco; Saleh Alseekh; Rigel Salinas Gamboa; Laura Pérez-Flores; Pia Guadalupe Dominguez; Christophe Rothan; Alisdair Robert Fernie; Maurício González; Achim Stocker; Andreas Hemmerle; Mads Hartving Clausen; Fernando Carrari; Magdalena Rossi

doi:10.1093/pcp/pcy191

A Tomato Tocopherol-Binding Protein Sheds Light on Intracellular α-Tocopherol Metabolism in Plants

Luisa Bermúdez, Talía Del Pozo, Bruno Silvestre Lira, Fabiana de Godoy, Irene Boos, Cecilia Romanò, Viola Previtali, Juliana Almeida, Claire Bréhélin, Ramón Asis, Leandro Quadrana, Diego Demarco, Saleh Alseekh, Rigel Salinas Gamboa, Laura Pérez-Flores, Pia Guadalupe Dominguez, Christophe Rothan, Alisdair Robert Fernie, Maurício González, Achim StockerAndreas Hemmerle, Mads Hartving Clausen, Fernando Carrari, Magdalena Rossi

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26 Citas (Scopus)

Resumen

Tocopherols are non-polar compounds synthesized in the plastids, which function as major antioxidants of the plant cells and are essential in the human diet. Both the intermediates and final products of the tocopherol biosynthetic pathway must cross plastid membranes to reach their sites of action. So far, no protein with tocopherol binding activity has been reported in plants. Here, we demonstrated that the tomato SlTBP protein is targeted to chloroplasts and able to bind α-tocopherol. SlTBP-knockdown tomato plants exhibited reduced levels of tocopherol in both leaves and fruits. Several tocopherol deficiency phenotypes were apparent in the transgenic lines, such as alterations in photosynthetic parameters, dramatic distortion of thylakoid membranes and significant variations in the lipid profile. These results, along with the altered expression of genes related to photosynthesis, and tetrapyrrole, lipid, isoprenoid, inositol/phosphoinositide and redox metabolism, suggest that SlTBP may act in conducting tocopherol (or its biosynthetic intermediates) between the plastid compartments and/or at the interface between chloroplast and endoplasmic reticulum membranes, affecting interorganellar lipid metabolism.

Idioma original	Inglés
Páginas (desde-hasta)	2188-2203
Número de páginas	16
Publicación	Plant & cell physiology
Volumen	59
N.º	11
DOI	https://doi.org/10.1093/pcp/pcy191
Estado	Publicada - 1 nov. 2018
Publicado de forma externa	Sí

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Bermúdez, L., Del Pozo, T., Silvestre Lira, B., de Godoy, F., Boos, I., Romanò, C., Previtali, V., Almeida, J., Bréhélin, C., Asis, R., Quadrana, L., Demarco, D., Alseekh, S., Salinas Gamboa, R., Pérez-Flores, L., Dominguez, P. G., Rothan, C., Fernie, A. R., González, M., ... Rossi, M. (2018). A Tomato Tocopherol-Binding Protein Sheds Light on Intracellular α-Tocopherol Metabolism in Plants. Plant & cell physiology, 59(11), 2188-2203. https://doi.org/10.1093/pcp/pcy191

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title = "A Tomato Tocopherol-Binding Protein Sheds Light on Intracellular α-Tocopherol Metabolism in Plants",

abstract = "Tocopherols are non-polar compounds synthesized in the plastids, which function as major antioxidants of the plant cells and are essential in the human diet. Both the intermediates and final products of the tocopherol biosynthetic pathway must cross plastid membranes to reach their sites of action. So far, no protein with tocopherol binding activity has been reported in plants. Here, we demonstrated that the tomato SlTBP protein is targeted to chloroplasts and able to bind α-tocopherol. SlTBP-knockdown tomato plants exhibited reduced levels of tocopherol in both leaves and fruits. Several tocopherol deficiency phenotypes were apparent in the transgenic lines, such as alterations in photosynthetic parameters, dramatic distortion of thylakoid membranes and significant variations in the lipid profile. These results, along with the altered expression of genes related to photosynthesis, and tetrapyrrole, lipid, isoprenoid, inositol/phosphoinositide and redox metabolism, suggest that SlTBP may act in conducting tocopherol (or its biosynthetic intermediates) between the plastid compartments and/or at the interface between chloroplast and endoplasmic reticulum membranes, affecting interorganellar lipid metabolism.",

author = "Luisa Berm{\'u}dez and {Del Pozo}, Tal{\'i}a and {Silvestre Lira}, Bruno and {de Godoy}, Fabiana and Irene Boos and Cecilia Roman{\`o} and Viola Previtali and Juliana Almeida and Claire Br{\'e}h{\'e}lin and Ram{\'o}n Asis and Leandro Quadrana and Diego Demarco and Saleh Alseekh and {Salinas Gamboa}, Rigel and Laura P{\'e}rez-Flores and Dominguez, {Pia Guadalupe} and Christophe Rothan and Fernie, {Alisdair Robert} and Maur{\'i}cio Gonz{\'a}lez and Achim Stocker and Andreas Hemmerle and Clausen, {Mads Hartving} and Fernando Carrari and Magdalena Rossi",

year = "2018",

month = nov,

day = "1",

doi = "10.1093/pcp/pcy191",

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Bermúdez, L, Del Pozo, T, Silvestre Lira, B, de Godoy, F, Boos, I, Romanò, C, Previtali, V, Almeida, J, Bréhélin, C, Asis, R, Quadrana, L, Demarco, D, Alseekh, S, Salinas Gamboa, R, Pérez-Flores, L, Dominguez, PG, Rothan, C, Fernie, AR, González, M, Stocker, A, Hemmerle, A, Clausen, MH, Carrari, F & Rossi, M 2018, 'A Tomato Tocopherol-Binding Protein Sheds Light on Intracellular α-Tocopherol Metabolism in Plants', Plant & cell physiology, vol. 59, n.º 11, pp. 2188-2203. https://doi.org/10.1093/pcp/pcy191

TY - JOUR

T1 - A Tomato Tocopherol-Binding Protein Sheds Light on Intracellular α-Tocopherol Metabolism in Plants

AU - Bermúdez, Luisa

AU - Del Pozo, Talía

AU - Silvestre Lira, Bruno

AU - de Godoy, Fabiana

AU - Boos, Irene

AU - Romanò, Cecilia

AU - Previtali, Viola

AU - Almeida, Juliana

AU - Bréhélin, Claire

AU - Asis, Ramón

AU - Quadrana, Leandro

AU - Demarco, Diego

AU - Alseekh, Saleh

AU - Salinas Gamboa, Rigel

AU - Pérez-Flores, Laura

AU - Dominguez, Pia Guadalupe

AU - Rothan, Christophe

AU - Fernie, Alisdair Robert

AU - González, Maurício

AU - Stocker, Achim

AU - Hemmerle, Andreas

AU - Clausen, Mads Hartving

AU - Carrari, Fernando

AU - Rossi, Magdalena

PY - 2018/11/1

Y1 - 2018/11/1

N2 - Tocopherols are non-polar compounds synthesized in the plastids, which function as major antioxidants of the plant cells and are essential in the human diet. Both the intermediates and final products of the tocopherol biosynthetic pathway must cross plastid membranes to reach their sites of action. So far, no protein with tocopherol binding activity has been reported in plants. Here, we demonstrated that the tomato SlTBP protein is targeted to chloroplasts and able to bind α-tocopherol. SlTBP-knockdown tomato plants exhibited reduced levels of tocopherol in both leaves and fruits. Several tocopherol deficiency phenotypes were apparent in the transgenic lines, such as alterations in photosynthetic parameters, dramatic distortion of thylakoid membranes and significant variations in the lipid profile. These results, along with the altered expression of genes related to photosynthesis, and tetrapyrrole, lipid, isoprenoid, inositol/phosphoinositide and redox metabolism, suggest that SlTBP may act in conducting tocopherol (or its biosynthetic intermediates) between the plastid compartments and/or at the interface between chloroplast and endoplasmic reticulum membranes, affecting interorganellar lipid metabolism.

AB - Tocopherols are non-polar compounds synthesized in the plastids, which function as major antioxidants of the plant cells and are essential in the human diet. Both the intermediates and final products of the tocopherol biosynthetic pathway must cross plastid membranes to reach their sites of action. So far, no protein with tocopherol binding activity has been reported in plants. Here, we demonstrated that the tomato SlTBP protein is targeted to chloroplasts and able to bind α-tocopherol. SlTBP-knockdown tomato plants exhibited reduced levels of tocopherol in both leaves and fruits. Several tocopherol deficiency phenotypes were apparent in the transgenic lines, such as alterations in photosynthetic parameters, dramatic distortion of thylakoid membranes and significant variations in the lipid profile. These results, along with the altered expression of genes related to photosynthesis, and tetrapyrrole, lipid, isoprenoid, inositol/phosphoinositide and redox metabolism, suggest that SlTBP may act in conducting tocopherol (or its biosynthetic intermediates) between the plastid compartments and/or at the interface between chloroplast and endoplasmic reticulum membranes, affecting interorganellar lipid metabolism.

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U2 - 10.1093/pcp/pcy191

DO - 10.1093/pcp/pcy191

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SN - 1471-9053

VL - 59

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JO - Plant & cell physiology

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ER -

A Tomato Tocopherol-Binding Protein Sheds Light on Intracellular α-Tocopherol Metabolism in Plants

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