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Phospholipid transfer protein. Broccoli brassica-oleracea.
Cell-specific expression. Cold-acclimation. Arabidopsis-thaliana.
Low-temperature. Gene family. Secondary structure. Crystal-structure.
Thylakoid membranes.
Multidisciplinary in Current Contents(R)/Agricultural, Biology &
Environmental Sciences
Experimental Biology in Current Contents(R)/Life Sciences.
2002 week 35
Abstract:
Plants from temperate and cold climates are able to increase their freezing tolerance during exposure to low non-freezing temperatures. It has been shown that several genes are induced in a coordinated manner during this process of cold acclimation. The functional role of most of the corresponding cold-regulated proteins is not yet known. We summarize our knowledge of those cold-regulated proteins that are able to stabilize membranes during a freeze-thaw cycle. Special emphasis is placed on cryoprotectin, a lipid-transfer protein homologue that was isolated from cold-acclimated cabbage leaves and that protects isolated chloroplast thylakoid membranes from freeze-thaw damage. [References: 77] 77