Assembly of tomato fruit cuticles: a cross-talk between the cutin polyester and cell wall polysaccharides

doi:10.1111/nph.16402

. 2020 May;226(3):809-822.

doi: 10.1111/nph.16402. Epub 2020 Feb 10.

Assembly of tomato fruit cuticles: a cross-talk between the cutin polyester and cell wall polysaccharides

Glenn Philippe¹, Nathalie Geneix¹, Johann Petit², Fabienne Guillon¹, Christophe Sandt³, Christophe Rothan², Marc Lahaye¹, Didier Marion¹, Bénédicte Bakan¹

Affiliations

¹ Unité Biopolymères, Interactions, Assemblages, INRAE, BP71627, 44316, Nantes Cedex 3, France.
² UMR 1332 Biologie du Fruit et Pathologie - INRAE Bordeaux-Aquitaine Bât, IBVM , 71 av. Edouard Bourlaux, CS 20032, 33882, Villenave d'Ornon Cedex, France.
³ Synchrotron SOLEIL, Ligne SMIS, L'Orme des Merisiers, 91192, Gif-sur-Yvette, France.

PMID: 31883116
DOI: 10.1111/nph.16402

Free article

Assembly of tomato fruit cuticles: a cross-talk between the cutin polyester and cell wall polysaccharides

Glenn Philippe et al. New Phytol. 2020 May.

Free article

. 2020 May;226(3):809-822.

doi: 10.1111/nph.16402. Epub 2020 Feb 10.

Authors

Glenn Philippe¹, Nathalie Geneix¹, Johann Petit², Fabienne Guillon¹, Christophe Sandt³, Christophe Rothan², Marc Lahaye¹, Didier Marion¹, Bénédicte Bakan¹

Affiliations

¹ Unité Biopolymères, Interactions, Assemblages, INRAE, BP71627, 44316, Nantes Cedex 3, France.
² UMR 1332 Biologie du Fruit et Pathologie - INRAE Bordeaux-Aquitaine Bât, IBVM , 71 av. Edouard Bourlaux, CS 20032, 33882, Villenave d'Ornon Cedex, France.
³ Synchrotron SOLEIL, Ligne SMIS, L'Orme des Merisiers, 91192, Gif-sur-Yvette, France.

PMID: 31883116
DOI: 10.1111/nph.16402

Abstract

The cuticle is an essential and ubiquitous biological polymer composite covering aerial plant organs, whose structural component is the cutin polyester entangled with cell wall polysaccharides. The nature of the cutin-embedded polysaccharides (CEPs) and their association with cutin polyester are still unresolved Using tomato fruit as a model, chemical and enzymatic pretreatments combined with biochemical and biophysical methods were developed to compare the fine structure of CEPs with that of the noncutinized polysaccharides (NCPs). In addition, we used tomato fruits from cutin-deficient transgenic lines cus1 (cutin synthase 1) to study the impact of cutin polymerization on the fine structure of CEPs. Cutin-embedded polysaccharides exhibit specific structural features including a high degree of esterification (i.e. methylation and acetylation), a low ramification of rhamnogalacturonan (RGI), and a high crystallinity of cellulose. In addition to decreasing cutin deposition and polymerization, cus1 silencing induced a specific modification of CEPs, especially on pectin content, while NCPs were not affected. This new evidence of the structural specificities of CEPs and of the cross-talk between cutin polymerization and polysaccharides provides new hypotheses concerning the formation of these complex lipopolysaccharide edifices.

Keywords: Solanum lycopersicum; crystalline cellulose; cutin; pectin esterification; plant cuticle; polysaccharides.

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References

1. Agarwal UP, Reiner RS, Ralph SA. 2010. Cellulose I crystallinity determination using FT-Raman spectroscopy: univariate and multivariate methods. Cellulose 17: 721-733.
1. Arrieta-Baez D, Cruz-Carrillo M, Gomez-Patino MB, Zepeda-Vallejo LG. 2011. Derivatives of 10,16-dihydroxyhexadecanoic acid isolated from Tomato (Solanum lycopersicum) as potential material for aliphatic polyesters. Molecules 16: 4923-4936.
1. Atmodjo MA, Hao Z, Mohnen D. 2013. Evolving views of pectin biosynthesis. Annual Review of Plant Biology 64: 747-779.
1. Bakan B, Marion D. 2017. Assembly of the cutin polyester: from cells to extracellular cell walls. Plants (Basel) 6: 57.
1. Bargel H, Neinhuis C. 2005. Tomato (Lycopersicon esculentum Mill.) fruit growth and ripening as related to the biomechanical properties of fruit skin and isolated cuticle. Journal of Experimental Botany 56: 1049-1060.

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[1] Agarwal UP, Reiner RS, Ralph SA. 2010. Cellulose I crystallinity determination using FT-Raman spectroscopy: univariate and multivariate methods. Cellulose 17: 721-733.

[2] Agarwal UP, Reiner RS, Ralph SA. 2010. Cellulose I crystallinity determination using FT-Raman spectroscopy: univariate and multivariate methods. Cellulose 17: 721-733.

[3] Arrieta-Baez D, Cruz-Carrillo M, Gomez-Patino MB, Zepeda-Vallejo LG. 2011. Derivatives of 10,16-dihydroxyhexadecanoic acid isolated from Tomato (Solanum lycopersicum) as potential material for aliphatic polyesters. Molecules 16: 4923-4936.

[4] Arrieta-Baez D, Cruz-Carrillo M, Gomez-Patino MB, Zepeda-Vallejo LG. 2011. Derivatives of 10,16-dihydroxyhexadecanoic acid isolated from Tomato (Solanum lycopersicum) as potential material for aliphatic polyesters. Molecules 16: 4923-4936.

[5] Atmodjo MA, Hao Z, Mohnen D. 2013. Evolving views of pectin biosynthesis. Annual Review of Plant Biology 64: 747-779.

[6] Atmodjo MA, Hao Z, Mohnen D. 2013. Evolving views of pectin biosynthesis. Annual Review of Plant Biology 64: 747-779.

[7] Bakan B, Marion D. 2017. Assembly of the cutin polyester: from cells to extracellular cell walls. Plants (Basel) 6: 57.

[8] Bakan B, Marion D. 2017. Assembly of the cutin polyester: from cells to extracellular cell walls. Plants (Basel) 6: 57.

[9] Bargel H, Neinhuis C. 2005. Tomato (Lycopersicon esculentum Mill.) fruit growth and ripening as related to the biomechanical properties of fruit skin and isolated cuticle. Journal of Experimental Botany 56: 1049-1060.

[10] Bargel H, Neinhuis C. 2005. Tomato (Lycopersicon esculentum Mill.) fruit growth and ripening as related to the biomechanical properties of fruit skin and isolated cuticle. Journal of Experimental Botany 56: 1049-1060.

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Assembly of tomato fruit cuticles: a cross-talk between the cutin polyester and cell wall polysaccharides

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Assembly of tomato fruit cuticles: a cross-talk between the cutin polyester and cell wall polysaccharides

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