Abstract
The extent to which leaf senescence is induced by nitrogen deficiency or by sugar accumulation varies between natural accessions of Arabidopsis (Arabidopsis thaliana). Analysis of senescence in plants of the Bay-0 x Shahdara recombinant inbred line (RIL) population revealed a large variation in developmental senescence of the whole leaf rosette, which was in agreement with the extent to which glucose (Glc) induced senescence in the different lines. To determine the regulatory basis of genetic differences in the Glc response, we investigated changes in gene expression using Complete Arabidopsis Transcriptome MicroArray (CATMA) analysis. Genes whose regulation did not depend on the genetic background, as well as genes whose regulation was specific to individual RILs, were identified. In RIL 310, a line that does not show the typical senescence response to Glc, stress response genes, especially those responding to cold stress, were induced by Glc. We therefore tested whether cold acclimation delays senescence by reducing sugar sensitivity. In cold-acclimated plants, leaf senescence was severely delayed and Glc did not induce the typical senescence response. Together, our results suggest that cold acclimation extends rosette longevity by affecting metabolic regulation of senescence, thereby allowing vernalization-dependent plants to survive the winter period. The role of functional chloroplasts and of nitrogen and phosphate availability in this regulation is discussed.
Highlights
The timing of leaf senescence is an important life history trait
quantitative trait loci (QTL) analysis using a Landsberg erecta 3 Cape Verde Islands population showed that allelic variation in a transcription factor gene, C-repeat binding factor (CBF) 2, which is involved in the regulation of cold acclimation, underlies a major QTL for freezing tolerance (Alonso-Blanco et al, 2005)
Complete Arabidopsis Transcriptome MicroArray (CATMA) analysis indicated that cold-responsive genes were induced by Glc in the sugar-insensitive recombinant inbred line (RIL) 310
Summary
The timing of leaf senescence is an important life history trait. Early onset of senescence could severely impair photosynthetic carbon gain, whereas late senescence could inhibit senescence-dependent nutrient recycling (Himelblau and Amasino, 2001), which is important for the growth of young leaves and for fruit and seed formation (Levey and Wingler, 2005; Wingler et al, 2005). QTL analysis using a Landsberg erecta 3 Cape Verde Islands population showed that allelic variation in a transcription factor gene, C-repeat binding factor (CBF) 2, which is involved in the regulation of cold acclimation, underlies a major QTL for freezing tolerance (Alonso-Blanco et al, 2005). This natural variation in cold acclimation could affect the regulation of leaf senescence: During cold acclimation, sugars (including Glc, Fru, Suc, and raffinose) accumulate (Cook et al, 2004). We investigated the impact of cold acclimation on the regulation of senescence
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