Sökning: "cold acclimation"
Visar resultat 1 - 5 av 17 avhandlingar innehållade orden cold acclimation.
1. Cold Acclimation : Dissecting the plant low temperature signaling pathway using functional genomics
Sammanfattning : The physiological process of cold acclimation protects plants native to the temperate regions of the world from the deleterious effects of low and freezing temperatures. This is achieved by a series of transcriptional, regulatory, and metabolic changes that enable continued growth and survival. Within minutes of exposure to temperatures below ca. LÄS MER
2. Unravelling the complexity of cold acclimation in plants
Sammanfattning : Many plants respond to low non-freezing temperatures by increasing their freezing tolerance in a process known as cold acclimation. Microarray studies have shown that hundreds of genes are differentially expressed during the cold acclimation process in Arabidopsis. LÄS MER
3. Low temperature acclimation in plants : alterations in photosynthetic carbon metabolism
Sammanfattning : Although low temperature plays an important role in determining agricultural yield, little is known about the effect on the underlying biochemical and physiological processes that influence plant growth. Photosynthesis and respiration are central to plant growth and both processes are heavily affected by temperature. LÄS MER
4. In the quest for a cold tolerant variety : gene expression profile analysis of cold stressed oat and rice
Sammanfattning : Cold acclimation is a process which increases the freezing tolerance of an organism, after exposure to low, non-freezing temperatures. The acclimation ensures that cold tolerant species can endure harsh winter conditions, by preparing them to sub-zero temperatures. LÄS MER
5. Cold Acclimation in oats and other plants: Dissecting low temperature responses using a comparative genomic approach
Sammanfattning : Cold acclimation protects plants from temperate regions of the world from the deleterious effects of low and freezing temperatures. This is through a series of transcriptional, regulatory and metabolic changes that enable continued growth and survival. LÄS MER