Disruption of Arabidopsis CHY1 Reveals an Important Role of Metabolic Status in Plant Cold Stress Signaling

Chun-Hai Dong, Bethany K. Zolman, Bonnie Bartel, Byeong-ha Lee, Becky Stevenson, Manu Agarwal, Jian-Kang Zhu

Research output: Contribution to journalArticlepeer-review

Abstract

To study cold signaling, we screened for Arabidopsis mutants with altered cold-induced transcription of a firefly luciferase reporter gene driven by the CBF3 promoter (CBF3-LUC). One mutant, chy1-10, displayed reduced cold-induction of CBF3-LUC luminescence. RNA gel blot analysis revealed that expression of endogenous CBFs also was reduced in the chy1 mutant. chy1-10 mutant plants are more sensitive to freezing treatment than wild-type after cold acclimation. Both the wild-type and chy1 mutant plants are sensitive to darkness-induced starvation at warm temperatures, although chy1 plants are slightly more sensitive. This dark-sensitivity is suppressed by cold temperature in the wildtype but not in chy1. Constitutive CBF3 expression partially rescues the sensitivity of chy1-10 plants to dark treatment in the cold. The chy1 mutant accumulates higher levels of reactive oxygen species, and application of hydrogen peroxide can reduce cold-induction of CBF3-LUC in wild-type. Map-based cloning of the gene defective in the mutant revealed a nonsense mutation in CHY1, which encodes a peroxisomal b-hydroxyisobutyryl (HIBYL)–CoA hydrolase needed for valine catabolism and fatty acid b-oxidation. Our results suggest a role for peroxisomal metabolism in cold stress signaling, and plant tolerance to cold stress and darkness-induced starvation.
Original languageAmerican English
JournalMolecular Plant
Volume2
DOIs
StatePublished - Jan 1 2009

Keywords

  • CHY1
  • Cold stress
  • b-hydroxyisobutyryl–CoA hydrolase
  • gene regulation
  • signal transduction

Disciplines

  • Genetics
  • Biochemistry
  • Biology

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