Julien De Giorgi scite author profile

Cuticular layers and seeds are prominent plant adaptations to terrestrial life that appeared early and late during plant evolution, respectively. The cuticle is a waterproof film covering plant aerial organs preventing excessive water loss and protecting against biotic and abiotic stresses. Cutin, consisting of crosslinked fatty acid monomers, is the most abundant and studied cuticular component. Seeds are dry, metabolically inert structures promoting plant dispersal by keeping the plant embryo in an arrested protected state. In Arabidopsis thaliana seeds, the embryo is surrounded by a single cell endosperm layer itself surrounded by a seed coat layer, the testa. Whole genome analyses lead us to identify cutin biosynthesis genes as regulatory targets of the phytohormones gibberellins (GA) and abscisic acid (ABA) signaling pathways that control seed germination. Cutin-containing layers are present in seed coats of numerous species, including Arabidopsis, where they regulate permeability to outer compounds. However, the role of cutin in mature seed physiology and germination remains poorly understood. Here we identify in mature seeds a thick cuticular film covering the entire outer surface of the endosperm. This seed cuticle is defective in cutin-deficient bodyguard1 seeds, which is associated with alterations in endospermic permeability. Furthermore, mutants affected in cutin biosynthesis display low seed dormancy and viability levels, which correlates with higher levels of seed lipid oxidative stress. Upon seed imbibition cutin biosynthesis genes are essential to prevent endosperm cellular expansion and testa rupture in response to low GA synthesis. Taken together, our findings suggest that in the course of land plant evolution cuticular structures were co-opted to achieve key physiological seed properties.

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A Maternally Deposited Endosperm Cuticle Contributes to the Physiological Defects of transparent testa Seeds

Loubéry

Giorgi

Utz-Pugin

et al. 2018

Plant Physiol.

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Mature dry seeds are highly resilient plant structures where the encapsulated embryo is kept protected and dormant to facilitate its ultimate dispersion. Seed viability is heavily dependent on the seed coat's capacity to shield living tissues from mechanical and oxidative stress. In Arabidopsis (), the seed coat, also called the testa, arises after the differentiation of maternal ovular integuments during seed development. We recently described a thick cuticle tightly embedded in the mature seed's endosperm cell wall. We show here that it is produced by the maternal inner integument 1 layer and, remarkably, transferred to the developing endosperm. Arabidopsis () mutations cause maternally derived seed coat pigmentation defects. gene products encode proteins involved in flavonoid metabolism and regulators of seed coat development. mutants have abnormally high seed coat permeability, resulting in lower seed viability and dormancy. However, the biochemical basis of this high permeability is not fully understood. We show that the cuticles of developing mutant integuments have profound structural defects, which are associated with enhanced cuticle permeability. Genetic analysis indicates that a functional proanthocyanidin synthesis pathway is required to limit cuticle permeability, and our results suggest that proanthocyanidins could be intrinsic components of the cuticle. Together, these results show that the formation of a maternal cuticle is an intrinsic part of the normal integumental differentiation program leading to testa formation and is essential for the seed's physiological properties.

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The Arabidopsis mature endosperm promotes seedling cuticle formation via release of sulfated peptides

et al. 2021

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The Mature Endosperm Governs Early Seedling Development: A Focus on Cuticle Formation

et al. 2021

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The mature endosperm governs early seedling development in Arabidopsis thaliana: a focus on seedling cuticle formation

Giorgi¹

2021

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Julien De Giorgi

An Endosperm-Associated Cuticle Is Required for Arabidopsis Seed Viability, Dormancy and Early Control of Germination

A Maternally Deposited Endosperm Cuticle Contributes to the Physiological Defects of transparent testa Seeds

The Arabidopsis mature endosperm promotes seedling cuticle formation via release of sulfated peptides

The Mature Endosperm Governs Early Seedling Development: A Focus on Cuticle Formation

The mature endosperm governs early seedling development in Arabidopsis thaliana: a focus on seedling cuticle formation

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