Lucie Le-Bot
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View article: A comprehensive platform investigating thermal, mechanical and rheological properties for biocomposite based on poly (3-hydroxybutyrate-co-3-hydroxyvalerate) reinforced with biomass by-products
A comprehensive platform investigating thermal, mechanical and rheological properties for biocomposite based on poly (3-hydroxybutyrate-co-3-hydroxyvalerate) reinforced with biomass by-products Open
International audience
View article: A Comprehensive Platform Investigating Thermal, Mechanical and Rheological Properties for Composite Based on Poly (3-Hydroxybutyrate-Co-3-Hydroxyvalerate) Reinforced with Biomass By-Products
A Comprehensive Platform Investigating Thermal, Mechanical and Rheological Properties for Composite Based on Poly (3-Hydroxybutyrate-Co-3-Hydroxyvalerate) Reinforced with Biomass By-Products Open
View article: A Comprehensive Platform Investigating Thermal, Mechanical and Rheological Properties for Composite Based on Poly (3-Hydroxybutyrate-Co-3-Hydroxyvalerate) Reinforced with Biomass By-Products
A Comprehensive Platform Investigating Thermal, Mechanical and Rheological Properties for Composite Based on Poly (3-Hydroxybutyrate-Co-3-Hydroxyvalerate) Reinforced with Biomass By-Products Open
View article: Comparison of kink-band structures and specificities of cell wall polysaccharides in modern and ancient flax fibres
Comparison of kink-band structures and specificities of cell wall polysaccharides in modern and ancient flax fibres Open
Flax (Linum usitatissimum L.) is a plant of industrial importance, its fibres being presently used for high-value textile applications, composite reinforcements as well as natural actuators. Human interest in this fibre-rich plant dates ba…
View article: Author Response: Cell-type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis
Author Response: Cell-type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis Open
View article: Cell-type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis
Cell-type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis Open
Deciphering the mechanism of secondary cell wall/SCW formation in plants is key to understanding their development and the molecular basis of biomass recalcitrance. Although transcriptional regulation is essential for SCW formation, little…
View article: Cell type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis
Cell type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis Open
Deciphering the mechanism of secondary cell wall/SCW formation in plants is key to understanding their development and the molecular basis of biomass recalcitrance. Although transcriptional regulation is essential for SCW formation, little…
View article: Author Response: Cell type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis
Author Response: Cell type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis Open
Deciphering the mechanism of secondary cell wall/SCW formation in plants is key to understanding their development and the molecular basis of biomass recalcitrance. Although transcriptional regulation is essential for SCW formation, little…
View article: Cell type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis
Cell type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis Open
Deciphering the mechanism of secondary cell wall/SCW formation in plants is key to understanding their development and the molecular basis of biomass recalcitrance. Although transcriptional regulation is essential for SCW formation, little…
View article: Cell-type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis
Cell-type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis Open
Deciphering the mechanism of secondary cell wall/SCW formation in plants is key to understanding their development and the molecular basis of biomass recalcitrance. Although transcriptional regulation is essential for SCW formation, little…
View article: Mixed-Linkage Glucan Is the Main Carbohydrate Source and Starch Is an Alternative Source during Brachypodium Grain Germination
Mixed-Linkage Glucan Is the Main Carbohydrate Source and Starch Is an Alternative Source during Brachypodium Grain Germination Open
Seeds of the model grass Brachypodium distachyon are unusual because they contain very little starch and high levels of mixed-linkage glucan (MLG) accumulated in thick cell walls. It was suggested that MLG might supplement starch as a stor…
View article: Cell type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis
Cell type-specific control of secondary cell wall formation by Musashi-type translational regulators in Arabidopsis Open
Deciphering the mechanism of secondary cell wall/SCW formation in plants is key to understanding their development and the molecular basis of biomass recalcitrance. Although transcriptional regulation is essential for SCW formation, little…