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Multifaceted roles of WRKY transcription factors in abiotic stress and flavonoid biosynthesis
J Zhang, H Zhao, L Chen, J Lin, Z Wang… - Frontiers in Plant …, 2023 - frontiersin.org
Increasing biotic and abiotic stresses are seriously impeding the growth and yield of staple
crops and threatening global food security. As one of the largest classes of regulators in …
crops and threatening global food security. As one of the largest classes of regulators in …
[HTML][HTML] Progress in the understanding of WRKY transcription factors in woody plants
L Long, L Gu, S Wang, H Cai, J Wu, J Wang… - International Journal of …, 2023 - Elsevier
The WRKY transcription factor (TF) family, named for its iconic WRKY domain, is among the
largest and most functionally diverse TF families in higher plants. WRKY TFs typically …
largest and most functionally diverse TF families in higher plants. WRKY TFs typically …
WRKY33 negatively regulates anthocyanin biosynthesis and cooperates with PHR1 to mediate acclimation to phosphate starvation
H Tao, F Gao, L Li, Y He, X Zhang, M Wang, J Wei… - Plant …, 2024 - cell.com
Anthocyanin accumulation is acknowledged as a phenotypic indicator of phosphate (Pi)
starvation. However, negative regulators of this process and their molecular mechanisms …
starvation. However, negative regulators of this process and their molecular mechanisms …
MYB transcription factors in plants: A comprehensive review of their discovery, structure, classification, functional diversity and regulatory mechanism
X Wu, M **a, P Su, Y Zhang, L Tu, H Zhao… - International Journal of …, 2024 - Elsevier
The MYB transcription factor (TF) family is one of the largest families in plants and performs
highly diverse regulatory functions, particularly in relation to pathogen/pest resistance …
highly diverse regulatory functions, particularly in relation to pathogen/pest resistance …
WRKY transcription factors regulate phosphate uptake in plants
W Tang, F Wang, H Chu, M You, Q Lv, W Ji… - Environmental and …, 2023 - Elsevier
WRKY transcription factors (TFs) play key roles in abiotic stress responses in plants.
Phosphate (Pi) starvation is among the main challenges plants face; therefore …
Phosphate (Pi) starvation is among the main challenges plants face; therefore …
The E3 ubiquitin ligase SINA1 and the protein kinase BIN2 cooperatively regulate PHR1 in apple anthocyanin biosynthesis
JP An, HL Li, ZY Liu, DR Wang… - Journal of Integrative …, 2023 - Wiley Online Library
Abstract PHR1 (PHOSPHATE STARVATION RESPONSE1) plays key roles in the inorganic
phosphate (Pi) starvation response and in Pi deficiency‐induced anthocyanin biosynthesis …
phosphate (Pi) starvation response and in Pi deficiency‐induced anthocyanin biosynthesis …
Characterization and stress-responsive regulation of CmPHT1 genes involved in phosphate uptake and transport in Melon (Cucumis melo L.)
P Li, A Rehman, J Yu, J Weng, B Zhan, Y Wu… - BMC Plant …, 2024 - Springer
Background Phosphorus (P) deficiency, a major nutrient stress, greatly hinders plant growth.
Phosphate (Pi) uptake in plant roots relies on PHT1 family transporters. However, melon …
Phosphate (Pi) uptake in plant roots relies on PHT1 family transporters. However, melon …
[HTML][HTML] Phosphorus uptake, transport, and signaling in woody and model plants
X Fang, D Yang, L Deng, Y Zhang, Z Lin… - Forestry …, 2024 - pmc.ncbi.nlm.nih.gov
Phosphorus (P), a critical macronutrient for plant growth and reproduction, is primarily
acquired and translocated in the form of inorganic phosphate (Pi) by roots. Pi deficiency is …
acquired and translocated in the form of inorganic phosphate (Pi) by roots. Pi deficiency is …
Comparative physiological and proteomic analysis reveals different responding mechanisms of phosphate deficiency between two clones of Pinus elliottii× P …
Y Dai, L Xue, Y Liu, Z Li, S Huang, M Zeng… - Industrial Crops and …, 2024 - Elsevier
Enhancing efficiency of phosphorus uptake and utilization in forest trees through genetic
improvement is crucial for ecological conservation and climate change mitigation. Pinus …
improvement is crucial for ecological conservation and climate change mitigation. Pinus …
WRKY transcription factors: Hubs for regulating plant growth and stress responses
L Yang, S Fang, L Liu, L Zhao, W Chen… - Journal of Integrative …, 2025 - Wiley Online Library
As sessile organisms, plants must directly face various stressors. Therefore, plants have
evolved a powerful stress resistance system and can adjust their growth and development …
evolved a powerful stress resistance system and can adjust their growth and development …