Lack of GLYCOLATE OXIDASE1, but Not GLYCOLATE OXIDASE2, Attenuates the Photorespiratory Phenotype of CATALASE2-Deficient Arabidopsis

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Kerchev , P , Waszczak , C , Lewandowska , A , Willems , P , Shapiguzov , A , Li , Z , Alseekh , S , Muhlenbock , P , Hoeberichts , F A , Huang , J , Van der Kelen , K , Kangasjärvi , J , Fernie , A R , De Smet , R , Van de Peer , Y , Messens , J & Van Breusegem , F 2016 , ' Lack of GLYCOLATE OXIDASE1, but Not GLYCOLATE OXIDASE2, Attenuates the Photorespiratory Phenotype of CATALASE2-Deficient Arabidopsis ' , Plant Physiology , vol. 171 , no. 3 , pp. 1704-1719 . https://doi.org/10.1104/pp.16.00359

Title: Lack of GLYCOLATE OXIDASE1, but Not GLYCOLATE OXIDASE2, Attenuates the Photorespiratory Phenotype of CATALASE2-Deficient Arabidopsis
Author: Kerchev, Pavel; Waszczak, Cezary; Lewandowska, Aleksandra; Willems, Patrick; Shapiguzov, Alexey; Li, Zhen; Alseekh, Saleh; Muhlenbock, Per; Hoeberichts, Frank A.; Huang, Jingjing; Van der Kelen, Katrien; Kangasjärvi, Jaakko; Fernie, Alisdair R.; De Smet, Riet; Van de Peer, Yves; Messens, Joris; Van Breusegem, Frank
Contributor: University of Helsinki, Biosciences
University of Helsinki, Biosciences
University of Helsinki, Biosciences
Date: 2016-07
Language: eng
Number of pages: 16
Belongs to series: Plant Physiology
ISSN: 0032-0889
URI: http://hdl.handle.net/10138/167080
Abstract: The genes coding for the core metabolic enzymes of the photorespiratory pathway that allows plants with C3-type photosynthesis to survive in an oxygen-rich atmosphere, have been largely discovered in genetic screens aimed to isolate mutants that are unviable under ambient air. As an exception, glycolate oxidase (GOX) mutants with a photorespiratory phenotype have not been described yet in C3 species. Using Arabidopsis (Arabidopsis thaliana) mutants lacking the peroxisomal CATALASE2 (cat2-2) that display stunted growth and cell death lesions under ambient air, we isolated a second-site loss-of-function mutation in GLYCOLATE OXIDASE1 (GOX1) that attenuated the photorespiratory phenotype of cat2-2. Interestingly, knocking out the nearly identical GOX2 in the cat2-2 background did not affect the photorespiratory phenotype, indicating that GOX1 and GOX2 play distinct metabolic roles. We further investigated their individual functions in single gox1-1 and gox2-1 mutants and revealed that their phenotypes can be modulated by environmental conditions that increase the metabolic flux through the photorespiratory pathway. High light negatively affected the photosynthetic performance and growth of both gox1-1 and gox2-1 mutants, but the negative consequences of severe photorespiration were more pronounced in the absence of GOX1, which was accompanied with lesser ability to process glycolate. Taken together, our results point toward divergent functions of the two photorespiratory GOX isoforms in Arabidopsis and contribute to a better understanding of the photorespiratory pathway.
Subject: S-NITROSYLATED PROTEINS
OXYGEN GENE NETWORK
ASCORBATE PEROXIDASE
CELL-DEATH
MAXIMUM-LIKELIHOOD
OXIDATIVE STRESS
CLIMATE-CHANGE
PLANT
METABOLISM
PROTECTION
1183 Plant biology, microbiology, virology
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