Amélia Gaston scite author profile

SUMMARYFlowering is a key event in plant life, and is finely tuned by environmental and endogenous signals to adapt to different environments. In horticulture, continuous flowering (CF) is a popular trait introduced in a wide range of cultivated varieties. It played an essential role in the tremendous success of modern roses and woodland strawberries in gardens. CF genotypes flower during all favourable seasons, whereas once-flowering (OF) genotypes only flower in spring. Here we show that in rose and strawberry continuous flowering is controlled by orthologous genes of the TERMINAL FLOWER 1 (TFL1) family. In rose, six independent pairs of CF/OF mutants differ in the presence of a retrotransposon in the second intron of the TFL1 homologue. Because of an insertion of the retrotransposon, transcription of the gene is blocked in CF roses and the absence of the floral repressor provokes continuous blooming. In OF-climbing mutants, the retrotransposon has recombined to give an allele bearing only the long terminal repeat element, thus restoring a functional allele. In OF roses, seasonal regulation of the TFL1 homologue may explain the seasonal flowering, with low expression in spring to allow the first bloom. In woodland strawberry, Fragaria vesca, a 2-bp deletion in the coding region of the TFL1 homologue introduces a frame shift and is responsible for CF behaviour. A diversity analysis has revealed that this deletion is always associated with the CF phenotype. Our results demonstrate a new role of TFL1 in perennial plants in maintaining vegetative growth and modifying flowering seasonality.

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Tracking the evolutionary history of polyploidy in Fragaria L. (strawberry): New insights from phylogenetic analyses of low-copy nuclear genes

Rousseau‐Gueutin¹,

Gaston²,

Aïnouche

et al. 2009

Molecular Phylogenetics and Evolution

156

163

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Architecture and permeability of post-cytokinesis plasmodesmata lacking cytoplasmic sleeves

Nicolas¹,

Grison²,

Trépout³

et al. 2017

Nature Plants

140

164

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Multiple C2 domains and transmembrane region proteins ( MCTP s) tether membranes at plasmodesmata

et al. 2019

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In eukaryotes, membrane contact sites ( MCS ) allow direct communication between organelles. Plants have evolved a unique type of MCS , inside intercellular pores, the plasmodesmata, where endoplasmic reticulum ( ER )–plasma membrane ( PM ) contacts coincide with regulation of cell‐to‐cell signalling. The molecular mechanism and function of membrane tethering within plasmodesmata remain unknown. Here, we show that the multiple C2 domains and transmembrane region protein ( MCTP ) family, key regulators of cell‐to‐cell signalling in plants, act as ER ‐ PM tethers specifically at plasmodesmata. We report that MCTP s are plasmodesmata proteins that insert into the ER via their transmembrane region while their C2 domains dock to the PM through interaction with anionic phospholipids. A Atmctp3/Atmctp4 loss of function mutant induces plant developmental defects, impaired plasmodesmata function and composition, while MCTP 4 expression in a yeast Δtether mutant partially restores ER ‐ PM tethering. Our data suggest that MCTP s are unique membrane tethers controlling both ER ‐ PM contacts and cell‐to‐cell signalling.

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Amélia Gaston

The TFL1 homologue KSN is a regulator of continuous flowering in rose and strawberry

Tracking the evolutionary history of polyploidy in Fragaria L. (strawberry): New insights from phylogenetic analyses of low-copy nuclear genes

Architecture and permeability of post-cytokinesis plasmodesmata lacking cytoplasmic sleeves

Multiple C2 domains and transmembrane region proteins ( MCTP s) tether membranes at plasmodesmata

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