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Title of the item:

Depletion of the membrane-associated acyl-coenzyme a-binding protein ACBP1 enhances the ability of cold acclimation in Arabidopsis

Title :
Depletion of the membrane-associated acyl-coenzyme a-binding protein ACBP1 enhances the ability of cold acclimation in Arabidopsis
Authors :
Du, ZY
Chye, ML
Xiao, S
Chen, QF
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Subject Terms :
Gene Expression Regulation, Plant
Gene Knockout Techniques
Phosphatidic Acids - Metabolism
Phosphatidylcholines - Metabolism
Plants, Genetically Modified - Genetics - Metabolism
Phospholipase D - Genetics - Metabolism
Acclimatization - Genetics
Arabidopsis - Genetics - Metabolism
Arabidopsis Proteins - Genetics - Metabolism
Carrier Proteins - Genetics - Metabolism
Cold Temperature
Publisher :
United States, 2010.
Publication Year :
Collection :
Language :
Accession Number :
In Arabidopsis (Arabidopsis thaliana), a family of six genes encodes acyl-coenzyme A-binding proteins (ACBPs). A member of this family, ACBP1, contains an amino-terminal transmembrane domain that targets it to the plasma membrane and the endoplasmic reticulum. To investigate ACBP1 function, ACBP1-overexpressing transgenic Arabidopsis plants were characterized using lipid analysis. ACBP1 overexpressors showed reduction in several species of diunsaturated phosphatidylcholine (PC), prompting us to investigate if they were altered in response to freezing stress. ACBP1 overexpressors demonstrated increased freezing sensitivity accompanied by a decrease in PC and an increase in phosphatidic acid (PA), while acbp1 mutant plants showed enhanced freezing tolerance associated with PC accumulation and PA reduction. We also showed binding of a recombinant eukaryotic ACBP (ACBP1) to PA, indicative of the possibility of enhanced PA interaction in ACBP1 over-expressors. Since phospholipase Da1 (PLDa1) is a major enzyme promoting the hydrolysis of PC to PA, PLDa1 expression was examined and was observed to be higher in ACBP1 overexpressors than in acbp1 mutant plants. In contrast, the expression of PLDd, which plays a positive role in freezing tolerance, declined in the ACBP1 overexpressors but increased in acbp1 mutant plants. Given that ACBP1 is localized to the endoplasmic reticulum and plasma membrane, it may regulate the expression of PLDa1 and PLDd by maintaining a membrane-associated PA pool through its ability to bind PA. Moreover, both genotypes showed no alterations in proline and soluble sugar content or in cold-regulated (COR6.6 and COR47) gene expression, suggesting that the ACBP1-mediated response is PLD associated and is independent of osmolyte accumulation. © 2010 American Society of Plant Biologists.

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