scholarly article | Q13442814 |
P50 | author | José M. Palma | Q54652723 |
P2093 | author name string | Francisco J Corpas | |
Luis A Del Río | |||
P2860 | cites work | Peroxisomal localization of inducible nitric oxide synthase in hepatocytes | Q24300407 |
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Cellular and subcellular localization of endogenous nitric oxide in young and senescent pea plants | Q24563102 | ||
Nitric oxide (NO) and phytohormones crosstalk during early plant development | Q26860896 | ||
Plant peroxisomes: biogenesis and function | Q26860917 | ||
Interaction of nitric oxide with catalase: structural and kinetic analysis | Q27667584 | ||
Fatty acid-derived signals in plants | Q28216660 | ||
Monomeric inducible nitric oxide synthase localizes to peroxisomes in hepatocytes | Q28571780 | ||
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Constitutive arginine-dependent nitric oxide synthase activity in different organs of pea seedlings during plant development | Q33231061 | ||
Cellular localization of ROS and NO in olive reproductive tissues during flower development. | Q33726889 | ||
In vivo protein tyrosine nitration in Arabidopsis thaliana | Q33838009 | ||
Nitric oxide induces cotyledon senescence involving co-operation of the NES1/MAD1 and EIN2-associated ORE1 signalling pathways in Arabidopsis | Q33931684 | ||
Nitric oxide is involved in growth regulation and re-orientation of pollen tubes | Q44884930 | ||
Dormancy of Arabidopsis seeds and barley grains can be broken by nitric oxide. | Q44888664 | ||
Indole-3-butyric acid induces lateral root formation via peroxisome-derived indole-3-acetic acid and nitric oxide | Q44945277 | ||
Inactivation of human Cu,Zn superoxide dismutase by peroxynitrite and formation of histidinyl radical. | Q45013605 | ||
Compartment-specific role of the ascorbate-glutathione cycle in the response of tomato leaf cells to Botrytis cinerea infection. | Q45236618 | ||
Proteomics investigation of endogenous S-nitrosylation in Arabidopsis. | Q45305542 | ||
Organelle pH in the Arabidopsis endomembrane system | Q45834723 | ||
Nitric oxide synthase in plants: Where do we stand? | Q46486581 | ||
Peroxisomal xanthine oxidoreductase: characterization of the enzyme from pea (Pisum sativum L.) leaves | Q46552154 | ||
S-nitrosylated proteins of a medicinal CAM plant Kalanchoe pinnata- ribulose-1,5-bisphosphate carboxylase/oxygenase activity targeted for inhibition | Q46620524 | ||
Arabidopsis peroxisomes possess functionally redundant membrane and matrix isoforms of monodehydroascorbate reductase | Q46690530 | ||
ABA-induced NO generation and stomatal closure in Arabidopsis are dependent on H2O2 synthesis | Q46861018 | ||
Redox and nitric oxide homeostasis are affected in tomato (Solanum lycopersicum) roots under salinity-induced oxidative stress | Q46984165 | ||
Nitro-oxidative metabolism during fruit ripening. | Q47205386 | ||
Nitric oxide production in plants: an update. | Q47293847 | ||
Inhibition of peroxisomal hydroxypyruvate reductase (HPR1) by tyrosine nitration. | Q47996581 | ||
Biochemistry of Peroxynitrite and Protein Tyrosine Nitration. | Q48106513 | ||
Peroxisome Function, Biogenesis, and Dynamics in Plants. | Q48208031 | ||
Peroxisomes as a source of reactive oxygen species and nitric oxide signal molecules in plant cells. | Q33941347 | ||
S-Nitrosylated proteins in pea (Pisum sativum L.) leaf peroxisomes: changes under abiotic stress. | Q34116151 | ||
Vinyl sulfone silica: application of an open preactivated support to the study of transnitrosylation of plant proteins by S-nitrosoglutathione | Q34668423 | ||
Peroxynitrite (ONOO-) is endogenously produced in arabidopsis peroxisomes and is overproduced under cadmium stress. | Q35043095 | ||
Entering a new era of research on plant peroxisomes | Q35581436 | ||
Ripening of pepper (Capsicum annuum) fruit is characterized by an enhancement of protein tyrosine nitration | Q35588106 | ||
Dynamics of the Light-Dependent Transition of Plant Peroxisomes. | Q35660585 | ||
Zinc induces distinct changes in the metabolism of reactive oxygen and nitrogen species (ROS and RNS) in the roots of two Brassica species with different sensitivity to zinc stress. | Q36081141 | ||
Nitric oxide participates in plant flowering repression by ascorbate | Q36161269 | ||
Lead-induced stress, which triggers the production of nitric oxide (NO) and superoxide anion (O2·-) in Arabidopsis peroxisomes, affects catalase activity | Q36236726 | ||
Calmodulin antagonist affects peroxisomal functionality by disrupting both peroxisomal Ca2+ and protein import. | Q36276193 | ||
PEX7 and EBP50 target iNOS to the peroxisome in hepatocytes | Q36812067 | ||
S-nitrosoglutathione. | Q36921356 | ||
Nitric oxide evolution and perception | Q36987690 | ||
Nitric oxide synthesis and signalling in plants | Q37012175 | ||
Cu,Zn superoxide dismutase is a peroxisomal enzyme in human fibroblasts and hepatoma cells | Q37582788 | ||
Catalase function in plants: a focus on Arabidopsis mutants as stress-mimic models | Q37793664 | ||
The anoxic plant mitochondrion as a nitrite: NO reductase. | Q37853238 | ||
Classical catalase: ancient and modern | Q37983339 | ||
Plant catalases: peroxisomal redox guardians | Q38006580 | ||
The emerging role of photorespiration and non-photorespiratory peroxisomal metabolism in pathogen defence | Q38090706 | ||
NO signaling in plant immunity: a tale of messengers | Q38203093 | ||
Mechanical wounding promotes local and long distance response in the halophyte Cakile maritima through the involvement of the ROS and RNS metabolism | Q38706248 | ||
ROS Generation in Peroxisomes and its Role in Cell Signaling | Q38808943 | ||
Functions of Nitric Oxide (NO) in Roots during Development and under Adverse Stress Conditions | Q38822864 | ||
Catalase, a remarkable enzyme: targeting the oldest antioxidant enzyme to find a new cancer treatment approach | Q38850127 | ||
Plant peroxisomes: A nitro-oxidative cocktail | Q39018111 | ||
ROS-related redox regulation and signaling in plants | Q39451259 | ||
Differential molecular response of monodehydroascorbate reductase and glutathione reductase by nitration and S-nitrosylation | Q40792318 | ||
Peroxisomes as a source of superoxide and hydrogen peroxide in stressed plants. | Q41060889 | ||
Functional transformation of microbodies in higher plant cells | Q41444752 | ||
Differential inhibition of Arabidopsis superoxide dismutases by peroxynitrite-mediated tyrosine nitration | Q41821927 | ||
Oxidative damage and redox change in pea seeds treated with cadmium | Q42781537 | ||
Alleviation of Cr(VI)-induced oxidative stress in maize (Zea mays L.) seedlings by NO and H2S donors through differential organ-dependent regulation of ROS and NADPH-recycling metabolisms | Q43033095 | ||
Peroxisomes are required for in vivo nitric oxide accumulation in the cytosol following salinity stress of Arabidopsis plants | Q43270648 | ||
Proteomics reveals the overlapping roles of hydrogen peroxide and nitric oxide in the acclimation of citrus plants to salinity. | Q43291684 | ||
Effects of urate, a natural inhibitor of peroxynitrite-mediated toxicity, in the response of Arabidopsis thaliana to the bacterial pathogen Pseudomonas syringae. | Q43579591 | ||
Reactive oxygen species, antioxidant systems and nitric oxide in peroxisomes | Q43984556 | ||
Nitric oxide mediates the indole acetic acid induction activation of a mitogen-activated protein kinase cascade involved in adventitious root development | Q44879741 | ||
Antioxidative enzymes from chloroplasts, mitochondria, and peroxisomes during leaf senescence of nodulated pea plants. | Q52017908 | ||
Identification of endogenously S-nitrosylated proteins in Arabidopsis plantlets: effect of cold stress on cysteine nitrosylation level. | Q54374007 | ||
Nitric oxide on/off in fruit ripening | Q59229827 | ||
Peroxisomal plant nitric oxide synthase (NOS) protein is imported by peroxisomal targeting signal type 2 (PTS2) in a process that depends on the cytosolic receptor PEX7 and calmodulin | Q59229979 | ||
Water stress induces a differential and spatially distributed nitro-oxidative stress response in roots and leaves of Lotus japonicus | Q59230051 | ||
Reactive oxygen species and reactive nitrogen species in peroxisomes. Production, scavenging, and role in cell signaling | Q59230234 | ||
Localization of Nitric-oxide Synthase in Plant Peroxisomes | Q59230308 | ||
Reversible binding and inhibition of catalase by nitric oxide | Q71735037 | ||
Nitric oxide inhibition of tobacco catalase and ascorbate peroxidase | Q73268856 | ||
Nitric oxide stimulates seed germination and de-etiolation, and inhibits hypocotyl elongation, three light-inducible responses in plants | Q73422070 | ||
Evidence for the Presence of the Ascorbate-Glutathione Cycle in Mitochondria and Peroxisomes of Pea Leaves | Q74770485 | ||
Inactivation and nitration of human superoxide dismutase (SOD) by fluxes of nitric oxide and superoxide | Q80063793 | ||
Subcellular localization of tyrosine-nitrated proteins is dictated by reactive oxygen species generating enzymes and by proximity to nitric oxide synthase | Q83825207 | ||
Targeting of pollen tubes to ovules is dependent on nitric oxide (NO) signaling | Q84713865 | ||
Immunocytochemical evidence for a peroxisomal localization of manganese superoxide dismutase in leaf protoplasts from a higher plant | Q86826143 | ||
Nitric oxide synthase-like activity in higher plants | Q88693049 | ||
Plant peroxisomes at the crossroad of NO and H2 O2 metabolism | Q90883350 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | peroxisome | Q138639 |
superoxide dismutase | Q410776 | ||
Catalase | Q424724 | ||
Monodehydroascorbate reductase (NADH) | Q3450187 | ||
P304 | page(s) | 37 | |
P577 | publication date | 2019-02-10 | |
P1433 | published in | Plants | Q27724544 |
P1476 | title | Impact of Nitric Oxide (NO) on the ROS Metabolism of Peroxisomes | |
P478 | volume | 8 |
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