Phosphorus plays key roles in regulating plants' physiological responses to abiotic stresses
Phosphorus (P), an essential macronutrient, plays a pivotal role in the growth and
development of plants. However, the limited availability of phosphorus in soil presents …
development of plants. However, the limited availability of phosphorus in soil presents …
Molecular mechanisms and genetic improvement of low‐phosphorus tolerance in rice
H Lu, F Wang, Y Wang, R Lin, Z Wang… - Plant, Cell & …, 2023 - Wiley Online Library
Phosphorus (P) is a macronutrient required for plant growth and reproduction.
Orthophosphate (Pi), the preferred P form for plant uptake, is easily fixed in the soil, making it …
Orthophosphate (Pi), the preferred P form for plant uptake, is easily fixed in the soil, making it …
PHOSPHATE STARVATION RESPONSE1 (PHR1) interacts with JASMONATE ZIM-DOMAIN (JAZ) and MYC2 to modulate phosphate deficiency-induced jasmonate …
K He, J Du, X Han, H Li, M Kui, J Zhang, Z Huang… - The Plant …, 2023 - academic.oup.com
Phosphorus (P) is a macronutrient necessary for plant growth and development. Inorganic
phosphate (Pi) deficiency modulates the signaling pathway of the phytohormone jasmonate …
phosphate (Pi) deficiency modulates the signaling pathway of the phytohormone jasmonate …
Low phosphorus promotes NSP1–NSP2 heterodimerization to enhance strigolactone biosynthesis and regulate shoot and root architecture in rice
K Yuan, H Zhang, C Yu, N Luo, J Yan, S Zheng, Q Hu… - Molecular Plant, 2023 - cell.com
Phosphorus is an essential macronutrient for plant development and metabolism, and plants
have evolved ingenious mechanisms to overcome phosphate (Pi) starvation. However, the …
have evolved ingenious mechanisms to overcome phosphate (Pi) starvation. However, the …
Can nutrients act as signals under abiotic stress?
H Houmani, FJ Corpas - Plant Physiology and Biochemistry, 2023 - Elsevier
Plant cells are in constant communication to coordinate development processes and
environmental reactions. Under stressful conditions, such communication allows the plant …
environmental reactions. Under stressful conditions, such communication allows the plant …
Phosphate starvation regulates cellulose synthesis to modify root growth
GA Khan, A Dutta, A Van de Meene… - Plant …, 2024 - academic.oup.com
In the model plant Arabidopsis (Arabidopsis thaliana), the absence of the essential macro-
nutrient phosphate reduces primary root growth through decreased cell division and …
nutrient phosphate reduces primary root growth through decreased cell division and …
The OsBZR1–OsSPX1/2 module fine-tunes the growth–immunity trade-off in adaptation to phosphate availability in rice
Y He, Y Zhao, J Hu, L Wang, L Li, X Zhang, Z Zhou… - Molecular Plant, 2024 - cell.com
The growth-promoting hormones brassinosteroids (BRs) and their key signaling component
BZR1 play a vital role in balancing normal growth and defense reactions. Here, we …
BZR1 play a vital role in balancing normal growth and defense reactions. Here, we …
PHOSPHATE RESPONSE 1 family members act distinctly to regulate transcriptional responses to phosphate starvation
To sustain growth when facing phosphate (Pi) starvation, plants trigger an array of adaptive
responses that are largely controlled at transcriptional levels. In Arabidopsis (Arabidopsis …
responses that are largely controlled at transcriptional levels. In Arabidopsis (Arabidopsis …
The long non-coding RNA PILNCR2 increases low phosphate tolerance in maize by interfering with miRNA399-guided cleavage of ZmPHT1s
Y Wang, Z Wang, Q Du, K Wang, C Zou, WX Li - Molecular Plant, 2023 - cell.com
The open reading regions of ZmPHT1s (inorganic phosphate [Pi] transporters) in maize
possess target sites of microRNA399 (miR399). However, the relationship between miR399 …
possess target sites of microRNA399 (miR399). However, the relationship between miR399 …
Role of boron and its interaction with other elements in plants
P Vera-Maldonado, F Aquea, M Reyes-Díaz… - Frontiers in Plant …, 2024 - frontiersin.org
Boron (B) is an essential microelement for plants, and its deficiency can lead to impaired
development and function. Around 50% of arable land in the world is acidic, and low pH in …
development and function. Around 50% of arable land in the world is acidic, and low pH in …