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Role of Potassium Plants
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Role of Potassium Plants in Bloomington, MN
Current price: $54.99
Role of Potassium Plants in Bloomington, MN
Current price: $54.99
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Size: Paperback
Potassium (K
+
) is an essential mineral macronutrient abundantly present in the cytosol which, unlike other macronutrients, is not metabolized and does not integrate into macromolecules. Compared to animal cells, K
is more abundantly present in plant cells.
Overall performance of the plant, and operation of metabolic machinery depends upon intracellular K
homeostasis (K
uptake and efflux) via K
channels and transporters acting as mediators of cellular responses during plant development. Unlike animals, plants lack sodium/K
exchangers; plant cells have developed unique transport systems for K
accumulation and release. In
Arabidopsis thaliana,
71 K
channels and transporters have been identified and categorized into six families.
Plant adaptive responses to several abiotic and biotic stresses are mediated by regulation of intracellular K
homeostasis. In this report, we highlight the role of K
in abiotic and biotic stresses, features of channels and transporters responsible for its homeostasis along with its evolutionary relationship, perception and sensing mechanisms, and K
deficiency triggering different signaling cascades.
Overall, this book covers the role of K
in plants would be significantly helpful to research, academic community as well as students to understand the one of the major attributes of plant biology.
+
) is an essential mineral macronutrient abundantly present in the cytosol which, unlike other macronutrients, is not metabolized and does not integrate into macromolecules. Compared to animal cells, K
is more abundantly present in plant cells.
Overall performance of the plant, and operation of metabolic machinery depends upon intracellular K
homeostasis (K
uptake and efflux) via K
channels and transporters acting as mediators of cellular responses during plant development. Unlike animals, plants lack sodium/K
exchangers; plant cells have developed unique transport systems for K
accumulation and release. In
Arabidopsis thaliana,
71 K
channels and transporters have been identified and categorized into six families.
Plant adaptive responses to several abiotic and biotic stresses are mediated by regulation of intracellular K
homeostasis. In this report, we highlight the role of K
in abiotic and biotic stresses, features of channels and transporters responsible for its homeostasis along with its evolutionary relationship, perception and sensing mechanisms, and K
deficiency triggering different signaling cascades.
Overall, this book covers the role of K
in plants would be significantly helpful to research, academic community as well as students to understand the one of the major attributes of plant biology.
Potassium (K
+
) is an essential mineral macronutrient abundantly present in the cytosol which, unlike other macronutrients, is not metabolized and does not integrate into macromolecules. Compared to animal cells, K
is more abundantly present in plant cells.
Overall performance of the plant, and operation of metabolic machinery depends upon intracellular K
homeostasis (K
uptake and efflux) via K
channels and transporters acting as mediators of cellular responses during plant development. Unlike animals, plants lack sodium/K
exchangers; plant cells have developed unique transport systems for K
accumulation and release. In
Arabidopsis thaliana,
71 K
channels and transporters have been identified and categorized into six families.
Plant adaptive responses to several abiotic and biotic stresses are mediated by regulation of intracellular K
homeostasis. In this report, we highlight the role of K
in abiotic and biotic stresses, features of channels and transporters responsible for its homeostasis along with its evolutionary relationship, perception and sensing mechanisms, and K
deficiency triggering different signaling cascades.
Overall, this book covers the role of K
in plants would be significantly helpful to research, academic community as well as students to understand the one of the major attributes of plant biology.
+
) is an essential mineral macronutrient abundantly present in the cytosol which, unlike other macronutrients, is not metabolized and does not integrate into macromolecules. Compared to animal cells, K
is more abundantly present in plant cells.
Overall performance of the plant, and operation of metabolic machinery depends upon intracellular K
homeostasis (K
uptake and efflux) via K
channels and transporters acting as mediators of cellular responses during plant development. Unlike animals, plants lack sodium/K
exchangers; plant cells have developed unique transport systems for K
accumulation and release. In
Arabidopsis thaliana,
71 K
channels and transporters have been identified and categorized into six families.
Plant adaptive responses to several abiotic and biotic stresses are mediated by regulation of intracellular K
homeostasis. In this report, we highlight the role of K
in abiotic and biotic stresses, features of channels and transporters responsible for its homeostasis along with its evolutionary relationship, perception and sensing mechanisms, and K
deficiency triggering different signaling cascades.
Overall, this book covers the role of K
in plants would be significantly helpful to research, academic community as well as students to understand the one of the major attributes of plant biology.
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