[HTML][HTML] Role of Abscisic Acid, Reactive Oxygen Species, and Ca2+ Signaling in Hydrotropism—Drought Avoidance-Associated Response of Roots
B Uzilday, K Takahashi, A Kobayashi, RO Uzilday… - Plants, 2024 - mdpi.com
Plant roots exert hydrotropism in response to moisture gradients to avoid drought stress. The
regulatory mechanism underlying hydrotropism involves novel regulators such as MIZ1 and …
regulatory mechanism underlying hydrotropism involves novel regulators such as MIZ1 and …
[PDF][PDF] Role of ABA in overcoming environmental stress: sensing, signaling and crosstalk
Abstract The Abscisic Acid (ABA) is an isoprenoid phytohormone, regulating various
physiological processes ranging from stomatal opening to protein storage. Moreover, it …
physiological processes ranging from stomatal opening to protein storage. Moreover, it …
Leaf dehydration is needed to induce abscisic acid accumulation in roots of citrus plants
The root system is the main organ involved in the water uptake and it is assumed that it
perceives soil dehydration, triggering water stress responses at the entire plant level …
perceives soil dehydration, triggering water stress responses at the entire plant level …
[HTML][HTML] Modelling the Impact of Water Stress during Post-Veraison on Berry Quality of Table Grapes
The aims of this work were modelling the effect of water stress intensity during post-veraison
on table grape quality and yield, as well as predicting berry quality at harvest using a …
on table grape quality and yield, as well as predicting berry quality at harvest using a …
[HTML][HTML] Isolation of an ABA Transporter-Like 1 Gene from Arachis hypogaea That Affects ABA Import and Reduces ABA Sensitivity in Arabidopsis
K Ge, X Liu, X Li, B Hu, L Li - Frontiers in plant science, 2017 - frontiersin.org
Abscisic acid (ABA) transporters are essential for the transport of ABA from its sites of
synthesis to its multiple sites of action within plants and are key players in plant stress …
synthesis to its multiple sites of action within plants and are key players in plant stress …
[HTML][HTML] A closer look at root water potential: experimental evidence based on drought stress of Chrysopogon zizanioides
SP Ganesan, D Boldrin, AK Leung - Plant and Soil, 2024 - Springer
Aims Gradients in water potential of soil and plant system drives the water movement in soil-
plant-atmospheric continuum. Here, we demonstrate how root water potential measured …
plant-atmospheric continuum. Here, we demonstrate how root water potential measured …
Comparative transcriptome analysis reveals an ABA-responsive regulation network associated with cell wall organization and oxidation reduction in sugar beet
W Xing, Z Pi, J Liu, X Li, Y Zou, M Wang, D Liu… - Plant growth …, 2020 - Springer
Abscisic acid (ABA) is an essential phytohormone and plays a key role in root architecture
and plant stress responses. However, the ABA signalling pathway and its regulatory network …
and plant stress responses. However, the ABA signalling pathway and its regulatory network …
Similar soil drying-induced stomatal closure in soybean genotypes varying in abscisic acid accumulation and stomatal sensitivity to abscisic acid
P Castro-Valdecantos, J Puértolas… - Functional Plant …, 2023 - CSIRO Publishing
Different soybean cultivars (Williams 82, Union, Jindou 21, Long Huang 1, Long Huang 2)
were exposed to drying soil, to investigate whether endogenous abscisic acid (ABA) …
were exposed to drying soil, to investigate whether endogenous abscisic acid (ABA) …
[HTML][HTML] Chemical signals and their regulations on the plant growth and water use efficiency of cotton seedlings under partial root-zone drying and different nitrogen …
W Li, L Jia, L Wang - Saudi Journal of Biological Sciences, 2017 - Elsevier
Partial root-zone drying during irrigation (PRD) has been shown effective in enhancing plant
water use efficiency (WUE), however, the roles of chemical signals from root and shoot that …
water use efficiency (WUE), however, the roles of chemical signals from root and shoot that …
[HTML][HTML] Expression of AhaTL1, an ABA transport factor gene from peanut, is affected by altered memory gene expression patterns and increased tolerance to drought …
M Qin, X Li, S Tang, Y Huang, L Li, B Hu - International journal of …, 2021 - mdpi.com
Arachis hypogaea abscisic acid transporter like-1 (AhATL1) modulates abscisic acid (ABA)
sensitivity by specifically influencing the importing of ABA into cells, and is a key player in …
sensitivity by specifically influencing the importing of ABA into cells, and is a key player in …