Literature DB >> 27432987

Sensing and signaling of oxidative stress in chloroplasts by inactivation of the SAL1 phosphoadenosine phosphatase.

Kai Xun Chan1, Peter D Mabbitt2, Su Yin Phua1, Jonathan W Mueller3, Nazia Nisar1, Tamara Gigolashvili4, Elke Stroeher5, Julia Grassl5, Wiebke Arlt3, Gonzalo M Estavillo1, Colin J Jackson2, Barry J Pogson6.   

Abstract

Intracellular signaling during oxidative stress is complex, with organelle-to-nucleus retrograde communication pathways ill-defined or incomplete. Here we identify the 3'-phosphoadenosine 5'-phosphate (PAP) phosphatase SAL1 as a previously unidentified and conserved oxidative stress sensor in plant chloroplasts. Arabidopsis thaliana SAL1 (AtSAL1) senses changes in photosynthetic redox poise, hydrogen peroxide, and superoxide concentrations in chloroplasts via redox regulatory mechanisms. AtSAL1 phosphatase activity is suppressed by dimerization, intramolecular disulfide formation, and glutathionylation, allowing accumulation of its substrate, PAP, a chloroplast stress retrograde signal that regulates expression of plastid redox associated nuclear genes (PRANGs). This redox regulation of SAL1 for activation of chloroplast signaling is conserved in the plant kingdom, and the plant protein has evolved enhanced redox sensitivity compared with its yeast ortholog. Our results indicate that in addition to sulfur metabolism, SAL1 orthologs have evolved secondary functions in oxidative stress sensing in the plant kingdom.

Entities:  

Keywords:  chloroplast; drought stress; redox regulation; retrograde signaling; stress sensing

Mesh:

Substances:

Year:  2016        PMID: 27432987      PMCID: PMC4978270          DOI: 10.1073/pnas.1604936113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


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