Temperature stress and redox homeostasis in agricultural crops
R Awasthi, K Bhandari, H Nayyar - Frontiers in Environmental Science, 2015 - frontiersin.org
Plants are exposed to a wide range of environmental conditions and one of the major forces
that shape the structure and function of plants are temperature stresses, which include low …
that shape the structure and function of plants are temperature stresses, which include low …
Potassium nutrition, sodium toxicity, and calcium signaling: connections through the CBL–CIPK network
Plant roots take up numerous minerals from the soil. Some minerals (eg, K+) are essential
nutrients and others (eg, Na+) are toxic for plant growth and development. In addition to the …
nutrients and others (eg, Na+) are toxic for plant growth and development. In addition to the …
Narrowing down the targets: towards successful genetic engineering of drought-tolerant crops
S Yang, B Vanderbeld, J Wan, Y Huang - Molecular plant, 2010 - cell.com
Drought is the most important environmental stress affecting agriculture worldwide.
Exploiting yield potential and maintaining yield stability of crops in water-limited …
Exploiting yield potential and maintaining yield stability of crops in water-limited …
Abiotic stress responses in plants: unraveling the complexity of genes and networks to survive
AS Duque, AM de Almeida, AB da Silva… - Abiotic stress-plant …, 2013 - books.google.com
Plants are often subjected to unfavorable environmental conditions–abiotic factors, causing
abiotic stresses-that play a major role in determining productivity of crop yields [1] but also …
abiotic stresses-that play a major role in determining productivity of crop yields [1] but also …
Calcineurin B-like protein-interacting protein kinase CIPK21 regulates osmotic and salt stress responses in Arabidopsis
The role of calcium-mediated signaling has been extensively studied in plant responses to
abiotic stress signals. Calcineurin B-like proteins (CBLs) and CBL-interacting protein …
abiotic stress signals. Calcineurin B-like proteins (CBLs) and CBL-interacting protein …
The sucrose non-fermenting-1-related (SnRK) family of protein kinases: potential for manipulation to improve stress tolerance and increase yield
P Coello, SJ Hey, NG Halford - Journal of experimental botany, 2011 - academic.oup.com
Abstract Sucrose non-fermenting-1 (SNF1)-related protein kinases (SnRKs) take their name
from their fungal homologue, SNF1, a global regulator of carbon metabolism. The plant …
from their fungal homologue, SNF1, a global regulator of carbon metabolism. The plant …
Identification and comprehensive analyses of the CBL and CIPK gene families in wheat (Triticum aestivum L.)
T Sun, Y Wang, M Wang, T Li, Y Zhou, X Wang, S Wei… - BMC plant biology, 2015 - Springer
Abstract Background Calcineurin B-like (CBL) proteins belong to a unique group of calcium
sensors in plant that decode the Ca 2+ signature by interacting with CBL-interacting protein …
sensors in plant that decode the Ca 2+ signature by interacting with CBL-interacting protein …
The CBL–CIPK network mediates different signaling pathways in plants
Q Yu, L An, W Li - Plant cell reports, 2014 - Springer
The calcineurin B-like protein–CBL-interacting protein kinase (CBL–CIPK) signaling
pathway in plants is a Ca 2+-related pathway that responds strongly to both abiotic and …
pathway in plants is a Ca 2+-related pathway that responds strongly to both abiotic and …
Identification of the CIPK-CBL family gene and functional characterization of CqCIPK14 gene under drought stress in quinoa
Z Xiaolin, W Baoqiang, W Xian, W Xiaohong - BMC genomics, 2022 - Springer
Abstract Background Calcineurin-like Protein (CBL) and CBL interacting protein kinase
(CIPK) play a key role in plant signal transduction and response to various environmental …
(CIPK) play a key role in plant signal transduction and response to various environmental …
Comparative analysis of root transcriptome profiles between drought-tolerant and susceptible wheat genotypes in response to water stress
L Hu, Y Xie, S Fan, Z Wang, F Wang, B Zhang, H Li… - Plant Science, 2018 - Elsevier
Water deficit is one of the major factors limiting crop productivity worldwide. Plant roots play
a key role in uptaking water, perceiving and transducing of water deficit signals to shoot …
a key role in uptaking water, perceiving and transducing of water deficit signals to shoot …