Interaction of glucose and phytohormone signaling in plants
F Sami, H Siddiqui, S Hayat - Plant Physiology and Biochemistry, 2019 - Elsevier
Energy acts as a primary prerequisite for plant growth like all the other organisms. Soluble
sugars function in providing enough supply of nutrients which further helps in building …
sugars function in providing enough supply of nutrients which further helps in building …
Glucose regulates cotton fiber elongation by interacting with brassinosteroid
X Li, W Liu, Z Ren, X Wang, J Liu, Z Yang… - Journal of …, 2022 - academic.oup.com
In plants, glucose (Glc) plays important roles, as a nutrient and signal molecule, in the
regulation of growth and development. However, the function of Glc in fiber development of …
regulation of growth and development. However, the function of Glc in fiber development of …
[HTML][HTML] The hexokinase Gene Family in Cotton: Genome-Wide Characterization and Bioinformatics Analysis
L Dou, Z Li, H Wang, HZ Li, G Xiao… - Frontiers in Plant …, 2022 - frontiersin.org
Hexokinase (HXK) is involved in hexose phosphorylation, sugar sensing, and signal
transduction, all of which regulate plant growth and adaptation to stresses. Gossypium …
transduction, all of which regulate plant growth and adaptation to stresses. Gossypium …
[HTML][HTML] Photosynthate Regulation of the Root System Architecture Mediated by the Heterotrimeric G Protein Complex in Arabidopsis
Y Mudgil, A Karve, PJPL Teixeira, K Jiang… - Frontiers in plant …, 2016 - frontiersin.org
Assimilate partitioning to the root system is a desirable developmental trait to control but little
is known of the signaling pathway underlying partitioning. A null mutation in the gene …
is known of the signaling pathway underlying partitioning. A null mutation in the gene …
Jasmonic acid coordinates with light, glucose and auxin signalling in regulating branching angle of Arabidopsis lateral roots
The role of jasmonates (JAs) in primary root growth and development and in plant response
to external stimuli is already known. However, its role in lateral root (LR) development …
to external stimuli is already known. However, its role in lateral root (LR) development …
The peptidyl-prolyl isomerases FKBP15-1 and FKBP15-2 negatively affect lateral root development by repressing the vacuolar invertase VIN2 in Arabidopsis
J Wang, W Sun, X Kong, C Zhao, J Li, Y Chen, Z Gao… - Planta, 2020 - Springer
Main conclusion The peptidyl-prolyl isomerases FKBP15-1 and FKBP15-2 negatively
modulate lateral root development by repressing vacuolar invertase VIN2 activity. Abstract …
modulate lateral root development by repressing vacuolar invertase VIN2 activity. Abstract …
The peptidyl-prolyl isomerases FKBP15-1 and FKBP15-2 negatively regulate lateral root development by repressing a vacuolar invertase in Arabidopsis
J Wang, W Sun, X Kong, C Zhao, J Li, Y Chen, Z Gao… - 2019 - researchsquare.com
Background Lateral root (LR) architecture determines the e ciency of nutrient absorption and
anchors the plant. Internal auxin regulatory mechanisms that control the development of LR …
anchors the plant. Internal auxin regulatory mechanisms that control the development of LR …
[PDF][PDF] ИЗМЕНЕНИЕ КОМПОЗИЦИОННОГО СОСТАВА КОРНЕВЫХ ЭКССУДАТОВ У РАСТЕНИЙ ГОРОХА ПОСЕВНОГО ПРИ ВОЗДЕЙСТВИИ ТЯЖЕЛЫХ …
ЯВ Пухальский, АИ Шапошников… - … и микроорганизмов к …, 2018 - ibn.idsi.md
В условиях стерильной гидропонной культуры, и при интродукции токсичных
концентраций тяжелых металлов, изучен состав корневых экзометаболитов …
концентраций тяжелых металлов, изучен состав корневых экзометаболитов …