Manipulation of β-carotene levels in tomato fruits results in increased ABA content and extended shelf life

Gianfranco Diretto; Sarah Frusciante; Claudia Fabbri; Nicolas Schauer; Lucas Busta; Zhonghua Wang; Antonio J. Matas; Alessia Fiore; Jocelyn K.C. Rose; Alisdair R. Fernie; Reinhard Jetter; Benedetta Mattei; Jim Giovannoni; Giovanni Giuliano

doi:10.1111/pbi.13283

Manipulation of β-carotene levels in tomato fruits results in increased ABA content and extended shelf life

Gianfranco Diretto, Sarah Frusciante, Claudia Fabbri, Nicolas Schauer, Lucas Busta, Zhonghua Wang, Antonio J. Matas, Alessia Fiore, Jocelyn K.C. Rose, Alisdair R. Fernie, Reinhard Jetter, Benedetta Mattei, Jim Giovannoni, Giovanni Giuliano

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Abstract

Tomato fruit ripening is controlled by the hormone ethylene and by a group of transcription factors, acting upstream of ethylene. During ripening, the linear carotene lycopene accumulates at the expense of cyclic carotenoids. Fruit-specific overexpression of LYCOPENE β-CYCLASE (LCYb) resulted in increased β-carotene (provitamin A) content. Unexpectedly, LCYb-overexpressing fruits also exhibited a diverse array of ripening phenotypes, including delayed softening and extended shelf life. These phenotypes were accompanied, at the biochemical level, by an increase in abscisic acid (ABA) content, decreased ethylene production, increased density of cell wall material containing linear pectins with a low degree of methylation, and a thicker cuticle with a higher content of cutin monomers and triterpenoids. The levels of several primary metabolites and phenylpropanoid compounds were also altered in the transgenic fruits, which could be attributed to delayed fruit ripening and/or to ABA. Network correlation analysis and pharmacological experiments with the ABA biosynthesis inhibitor, abamine, indicated that altered ABA levels were a direct effect of the increased β-carotene content and were in turn responsible for the extended shelf life phenotype. Thus, manipulation of β-carotene levels results in an improvement not only of the nutritional value of tomato fruits, but also of their shelf life.

Original language	English (US)
Pages (from-to)	1185-1199
Number of pages	15
Journal	Plant Biotechnology Journal
Volume	18
Issue number	5
DOIs	https://doi.org/10.1111/pbi.13283
State	Published - May 1 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2019 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.

Keywords

ABA
ripening
tomato
β-carotene

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Diretto, G., Frusciante, S., Fabbri, C., Schauer, N., Busta, L., Wang, Z., Matas, A. J., Fiore, A., K.C. Rose, J., Fernie, A. R., Jetter, R., Mattei, B., Giovannoni, J., & Giuliano, G. (2020). Manipulation of β-carotene levels in tomato fruits results in increased ABA content and extended shelf life. Plant Biotechnology Journal, 18(5), 1185-1199. https://doi.org/10.1111/pbi.13283

Diretto, G, Frusciante, S, Fabbri, C, Schauer, N, Busta, L, Wang, Z, Matas, AJ, Fiore, A, K.C. Rose, J, Fernie, AR, Jetter, R, Mattei, B, Giovannoni, J & Giuliano, G 2020, 'Manipulation of β-carotene levels in tomato fruits results in increased ABA content and extended shelf life', Plant Biotechnology Journal, vol. 18, no. 5, pp. 1185-1199. https://doi.org/10.1111/pbi.13283

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abstract = "Tomato fruit ripening is controlled by the hormone ethylene and by a group of transcription factors, acting upstream of ethylene. During ripening, the linear carotene lycopene accumulates at the expense of cyclic carotenoids. Fruit-specific overexpression of LYCOPENE β-CYCLASE (LCYb) resulted in increased β-carotene (provitamin A) content. Unexpectedly, LCYb-overexpressing fruits also exhibited a diverse array of ripening phenotypes, including delayed softening and extended shelf life. These phenotypes were accompanied, at the biochemical level, by an increase in abscisic acid (ABA) content, decreased ethylene production, increased density of cell wall material containing linear pectins with a low degree of methylation, and a thicker cuticle with a higher content of cutin monomers and triterpenoids. The levels of several primary metabolites and phenylpropanoid compounds were also altered in the transgenic fruits, which could be attributed to delayed fruit ripening and/or to ABA. Network correlation analysis and pharmacological experiments with the ABA biosynthesis inhibitor, abamine, indicated that altered ABA levels were a direct effect of the increased β-carotene content and were in turn responsible for the extended shelf life phenotype. Thus, manipulation of β-carotene levels results in an improvement not only of the nutritional value of tomato fruits, but also of their shelf life.",

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AU - Diretto, Gianfranco

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AU - Matas, Antonio J.

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AU - Fernie, Alisdair R.

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AU - Mattei, Benedetta

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AB - Tomato fruit ripening is controlled by the hormone ethylene and by a group of transcription factors, acting upstream of ethylene. During ripening, the linear carotene lycopene accumulates at the expense of cyclic carotenoids. Fruit-specific overexpression of LYCOPENE β-CYCLASE (LCYb) resulted in increased β-carotene (provitamin A) content. Unexpectedly, LCYb-overexpressing fruits also exhibited a diverse array of ripening phenotypes, including delayed softening and extended shelf life. These phenotypes were accompanied, at the biochemical level, by an increase in abscisic acid (ABA) content, decreased ethylene production, increased density of cell wall material containing linear pectins with a low degree of methylation, and a thicker cuticle with a higher content of cutin monomers and triterpenoids. The levels of several primary metabolites and phenylpropanoid compounds were also altered in the transgenic fruits, which could be attributed to delayed fruit ripening and/or to ABA. Network correlation analysis and pharmacological experiments with the ABA biosynthesis inhibitor, abamine, indicated that altered ABA levels were a direct effect of the increased β-carotene content and were in turn responsible for the extended shelf life phenotype. Thus, manipulation of β-carotene levels results in an improvement not only of the nutritional value of tomato fruits, but also of their shelf life.

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Manipulation of β-carotene levels in tomato fruits results in increased ABA content and extended shelf life

Abstract

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Keywords

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