Mathilde Chopy
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View article: Cell layer–specific expression of the homeotic MADS-box transcription factor PhDEF contributes to modular petal morphogenesis in petunia
Cell layer–specific expression of the homeotic MADS-box transcription factor PhDEF contributes to modular petal morphogenesis in petunia Open
Floral homeotic MADS-box transcription factors ensure the correct morphogenesis of floral organs, which are organized in different cell layers deriving from distinct meristematic layers. How cells from these distinct layers acquire their r…
View article: A single <scp>MYB</scp> transcription factor with multiple functions during flower development
A single <span>MYB</span> transcription factor with multiple functions during flower development Open
Summary Members of the R2R3‐MYB transcription factor subgroup 19 (SG19) have been extensively studied in multiple plant species using different silenced or mutated lines. Some studies have proposed a function in flower opening, others in f…
View article: Cell layer-specific expression of the homeotic MADS-box transcription factor PhDEF contributes to modular petunia petal morphogenesis
Cell layer-specific expression of the homeotic MADS-box transcription factor PhDEF contributes to modular petunia petal morphogenesis Open
Floral homeotic MADS-box transcription factors ensure the correct morphogenesis of floral organs, which are organized in different cell layers deriving from the meristematic L1, L2 and L3 layers. How cells from these distinct layers acquir…
View article: Genome editing by CRISPR-Cas9 technology in<i>Petunia hybrida</i>
Genome editing by CRISPR-Cas9 technology in<i>Petunia hybrida</i> Open
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View article: Towards a better understanding of the molecular basis of floral development in Petunia x hybrida
Towards a better understanding of the molecular basis of floral development in Petunia x hybrida Open
Il a déjà été montré chez plusieurs espèces que quelques gènes architectes (les gènes A, B et C) étaient responsables de l’identité des organes floraux : sépales, pétales, étamines et pistils. Cependant, les réseaux de gènes régulés en ava…
View article: The Floral C-Lineage Genes Trigger Nectary Development in Petunia and Arabidopsis
The Floral C-Lineage Genes Trigger Nectary Development in Petunia and Arabidopsis Open
To attract insects, flowers produce nectar, an energy-rich substance secreted by specialized organs called nectaries. For Arabidopsis thaliana, a rosid species with stamen-associated nectaries, the floral B-, C-, and E-functions were propo…