ListarBMB - Contribuciones a congresos científicos por tema "Cellulose"
Mostrando ítems 1-6 de 6
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Adaptative mechanisms of cellulose synthesis under stress conditions
(2023-07-09)Cellulose is the main structural compound of the plant cell wall and the most abundant biopolymer on Earth (Bar‐On et al 2018). The essential role of cellulose in plant development and defence highlights the importance ... -
Calling for reinforcements: the role of TTL proteins in the regulación of cell wall biosynthesis
(2022-09-14)Cellulose is the most abundant organic compound of all biomass on Earth1, with highly relevant roles in plant development and defence. Hence, it is essential to understand the regulation of its biosynthesis to improve the ... -
Overcoming stress: new insights in the regulation of cell wall biosynthesis
(2022)In addition to being crucial in plant development and defence, cellulose is the most abundant organic compound of all biomass on Earth1. Therefore, it is essential to elucidate the regulation of its biosynthesis to improve ... -
Phosphorylation regulates cellulose biosynthesis regulation.
(2023)Plants comprise over 82% of all biomass on Earth, a third of which is cellulose, making it the most abundant organic compound¹. Cellulose is also essential for plant development and defense against multiple stresses. ... -
Role pf TTLs proteins in cellulose biosynthesis
(2018-07-18)Abiotic stress cause detrimental yield losses in crop species. Plants are sessile organisms, so the understanding of the plant cell wall, which is the most important component that constitute the plant biomass of crop ... -
ttl mutants are impaired in cellulose biosynthesis under osmotic stress
(2018-07-18)As sessile organisms, plants require mechanisms to sense and respond to the challenging environment, that encompass both biotic and abiotic factors that results in differential development. In these conditions is essential ...