The cytochrome c oxidase biogenesis factor AtCOX17 modulates stress responses in Arabidopsis

Research output: Contribution to journalResearch articleContributedpeer-review

Contributors

  • Lucila Garcia - , National Scientific and Technical Research Council Argentina (CONICET) (Author)
  • Elina Welchen - , National Scientific and Technical Research Council Argentina (CONICET) (Author)
  • Uta Gey - , Faculty of Biology (Author)
  • Agustín L Arce - , National Scientific and Technical Research Council Argentina (CONICET) (Author)
  • Iris Steinebrunner - , Faculty of Biology (Author)
  • Daniel H Gonzalez - , National Scientific and Technical Research Council Argentina (CONICET) (Author)

Abstract

COX17 is a soluble protein from the mitochondrial intermembrane space that participates in the transfer of copper for cytochrome c oxidase (COX) assembly in eukaryotic organisms. In this work, we studied the function of both Arabidopsis thaliana AtCOX17 genes using plants with altered expression levels of these genes. Silencing of AtCOX17-1 in a cox17-2 knockout background generates plants with smaller rosettes and decreased expression of genes involved in the response of plants to different stress conditions, including several genes that are induced by mitochondrial dysfunctions. Silencing of either of the AtCOX17 genes does not affect plant development or COX activity but causes a decrease in the response of genes to salt stress. In addition, these plants contain higher reactive oxygen and lipid peroxidation levels after irrigation with high NaCl concentrations and are less sensitive to abscisic acid. In agreement with a role of AtCOX17 in stress and abscisic acid responses, both AtCOX17 genes are induced by several stress conditions, abscisic acid and mutation of the transcription factor ABI4. The results indicate that AtCOX17 is required for optimal expression of a group of stress-responsive genes, probably as a component of signalling pathways that link stress conditions to gene expression responses.

Details

Original languageEnglish
Pages (from-to)628-644
Number of pages17
JournalPlant, cell & environment
Volume39
Issue number3
Publication statusPublished - Mar 2016
Peer-reviewedYes

External IDs

Scopus 84958267967

Keywords

Keywords

  • Adaptation, Physiological/drug effects, Arabidopsis/enzymology, Arabidopsis Proteins/genetics, Cation Transport Proteins/genetics, Cluster Analysis, Copper Transport Proteins, Electron Transport Complex IV/metabolism, Gene Expression Regulation, Plant/drug effects, Gene Silencing/drug effects, Genes, Plant, Mitochondria/drug effects, Oxidative Stress/drug effects, Plant Development/drug effects, Plants, Genetically Modified, Protein Transport/drug effects, Sodium Chloride/pharmacology, Stress, Physiological/drug effects, Transcription Factors/metabolism

Library keywords