2019
DOI: 10.1111/jipb.12772
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Plant peroxisomes at the crossroad of NO and H2O2 metabolism

Abstract: Plant peroxisomes are subcellular compartments involved in many biochemical pathways during the life cycle of a plant but also in the mechanism of response against adverse environmental conditions. These organelles have an active nitro-oxidative metabolism under physiological conditions but this could be exacerbated under stress situations. Furthermore, peroxisomes have the capacity to proliferateand also undergo biochemical adaptations depending on the surrounding cellular status. An important characteristic … Show more

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Cited by 85 publications
(57 citation statements)
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References 151 publications
(166 reference statements)
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“…Plant peroxisomes are single membrane-bound organelles characterized by an adaptable and active nitro-oxidative metabolism [15,[71][72][73]. ROS/RNS are produced in many peroxisomal metabolic pathways such as β-oxidation, photorespiration, purine, and polyamine metabolism, as well as auxin and jasmonic acid biosynthesis.…”
Section: Peroxisomesmentioning
confidence: 99%
See 1 more Smart Citation
“…Plant peroxisomes are single membrane-bound organelles characterized by an adaptable and active nitro-oxidative metabolism [15,[71][72][73]. ROS/RNS are produced in many peroxisomal metabolic pathways such as β-oxidation, photorespiration, purine, and polyamine metabolism, as well as auxin and jasmonic acid biosynthesis.…”
Section: Peroxisomesmentioning
confidence: 99%
“…The iron-responsive element-iron-regulatory protein (IRE-IRP) system and iron-regulated transporter 1 (IRT1) are involved in the acclimation responses of stressed plant cells [14]. Furthermore, NO is considered to be a simple signal molecule with targets including thiols and the iron and sulfur group containing compounds and proteins [15]. The presence of NO in higher plants is well documented.…”
Section: Introductionmentioning
confidence: 99%
“…ROS and reactive nitrogen species (RNS) metabolism can occur within peroxisomes, generating hydrogen peroxide (H 2 O 2 ) and nitrite oxide (NO) respectively (Corpas et al, 2019b). H 2 O 2 can be generated by many peroxisomal metabolic processes, including photorespiration, b-oxidation, superoxide dismutation, sulfite oxidation, polyamine catabolism and others.…”
Section: Ros and Rns Metabolismmentioning
confidence: 99%
“…Commonly, classic gradient centrifugation has been used in the past to isolate PO in sufficient amounts and purity, for example, from spinach, cucumber, pea, or soybean [88][89][90][91]. Yet, the technique proved to be extremely ineffective for the isolation of PO from Arabidopsis, ending up with low yields of intact organelles and quite high rates of contamination.…”
Section: Peroxisomes Of Arabidopsis Thalianamentioning
confidence: 99%