| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Tony Remans | Q114366746 |
| Els Keunen | Q114719322 | ||
| Sacha Bohler | Q55807536 | ||
| Jaco Vangronsveld | Q58421940 | ||
| Ann Cuypers | Q38325613 | ||
| P2860 | cites work | Metal-induced toxicity, carcinogenesis, mechanisms and cellular responses | Q23921772 |
| The alternative oxidase lowers mitochondrial reactive oxygen production in plant cells | Q24642668 | ||
| Aluminum toxicity is associated with mitochondrial dysfunction and the production of reactive oxygen species in plant cells | Q28344974 | ||
| Mitochondria and apoptosis | Q29547905 | ||
| Mitochondrial DNA damage is more extensive and persists longer than nuclear DNA damage in human cells following oxidative stress | Q29619552 | ||
| Mitochondrial redox biology and homeostasis in plants. | Q30359791 | ||
| The impact of oxidative stress on Arabidopsis mitochondria | Q30876405 | ||
| Mechanistic study of mitochondria-dependent programmed cell death induced by aluminium phytotoxicity using fluorescence techniques | Q33715250 | ||
| Structure and function of metal chelators produced by plants: the case for organic acids, amino acids, phytin, and metallothioneins | Q33743314 | ||
| PLANT MITOCHONDRIA AND OXIDATIVE STRESS: Electron Transport, NADPH Turnover, and Metabolism of Reactive Oxygen Species | Q33945530 | ||
| Role of superoxide dismutases (SODs) in controlling oxidative stress in plants | Q34127358 | ||
| Unraveling the role of mitochondria during oxidative stress in plants. | Q34379251 | ||
| Respiratory metabolism: glycolysis, the TCA cycle and mitochondrial electron transport | Q34547718 | ||
| Plant responses to abiotic stresses: heavy metal-induced oxidative stress and protection by mycorrhization | Q34629079 | ||
| Quantitative assessment of worldwide contamination of air, water and soils by trace metals | Q34687034 | ||
| Monitoring the in vivo redox state of plant mitochondria: effect of respiratory inhibitors, abiotic stress and assessment of recovery from oxidative challenge | Q34975634 | ||
| Mitochondrial uncoupling protein is required for efficient photosynthesis | Q35540094 | ||
| Targets of stress-induced oxidative damage in plant mitochondria and their impact on cell carbon/nitrogen metabolism. | Q35596456 | ||
| Protein oxidation in plant mitochondria as a stress indicator | Q35856389 | ||
| Reactive oxygen gene network of plants. | Q35909671 | ||
| Strategies to maintain redox homeostasis during photosynthesis under changing conditions | Q36106079 | ||
| Plant uncoupling mitochondrial proteins | Q36466525 | ||
| Possible plant mitochondria involvement in cell adaptation to drought stress. A case study: durum wheat mitochondria | Q36721580 | ||
| Zinc in plants | Q36730794 | ||
| Mitochondrial retrograde regulation in plants | Q36744458 | ||
| Transporters of ligands for essential metal ions in plants. | Q36797247 | ||
| The multiplicity of dehydrogenases in the electron transport chain of plant mitochondria | Q37011568 | ||
| The relationship between metal toxicity and cellular redox imbalance | Q37345482 | ||
| Programmed cell death in plants: new insights into redox regulation and the role of hydrogen peroxide | Q37350408 | ||
| Alternative oxidase: a target and regulator of stress responses. | Q37496116 | ||
| Mechanisms to cope with arsenic or cadmium excess in plants | Q37509628 | ||
| Is the maintenance of homeostatic mitochondrial signaling during stress a physiological role for alternative oxidase? | Q37528597 | ||
| Defining the mitochondrial stress response in Arabidopsis thaliana. | Q50575222 | ||
| Does the alternative pathway ameliorate chilling injury in sensitive plant tissues? | Q52683311 | ||
| Aluminum Toxicity and Tolerance in Plants | Q56269767 | ||
| House dust as possible route of environmental exposure to cadmium and lead in the adult general population | Q57085469 | ||
| Environmental exposure to cadmium and risk of cancer: a prospective population-based study | Q57085511 | ||
| Induction of alternative oxidase by excess copper in sycamore cell suspensions | Q58063053 | ||
| Divalent metal ions in plant mitochondria and their role in interactions with proteins and oxidative stress-induced damage to respiratory function | Q58064251 | ||
| Reactive oxygen species generation and antioxidant systems in plant mitochondria | Q58382531 | ||
| The cellular redox state as a modulator in cadmium and copper responses in Arabidopsis thaliana seedlings | Q61632759 | ||
| Low cadmium exposure triggers a biphasic oxidative stress response in mice kidneys | Q61632788 | ||
| Subcellular localization of cadmium in roots and leaves ofArabidopsis thaliana | Q61632789 | ||
| Inter-relationships between light and respiration in the control of ascorbic acid synthesis and accumulation in Arabidopsis thaliana leaves | Q61831873 | ||
| Ascorbate Biosynthesis in Mitochondria Is Linked to the Electron Transport Chain between Complexes III and IV | Q61831896 | ||
| Does the plant mitochondrion integrate cellular stress and regulate programmed cell death? | Q73721870 | ||
| Regulation of the Arabidopsis transcriptome by oxidative stress | Q74504465 | ||
| Evidence for the Presence of the Ascorbate-Glutathione Cycle in Mitochondria and Peroxisomes of Pea Leaves | Q74770485 | ||
| Antioxidative defense to lead stress in subcellular compartments of pea root cells | Q77611131 | ||
| Assessing risk of heavy metals from consuming food grown on sewage irrigated soils and food chain transfer | Q80445945 | ||
| Enhanced alternative oxidase and antioxidant enzymes under Cd(2+) stress in Euglena | Q81360359 | ||
| Cadmium-induced oxalate secretion from root apex is associated with cadmium exclusion and resistance in Lycopersicon esulentum | Q83571628 | ||
| Reactive species and antioxidants. Redox biology is a fundamental theme of aerobic life | Q83947097 | ||
| Mitochondrial reactive oxygen species. Contribution to oxidative stress and interorganellar signaling | Q83947129 | ||
| ROS signalling--specificity is required | Q84531270 | ||
| Alternative oxidase: a defence against metabolic fluctuations? | Q37532624 | ||
| A specific form of thioredoxin h occurs in plant mitochondria and regulates the alternative oxidase. | Q37569199 | ||
| The role of reactive oxygen species in signalling from chloroplasts to the nucleus | Q37661143 | ||
| Reactive oxygen species and nitric oxide in plant mitochondria: origin and redundant regulatory systems. | Q37671030 | ||
| Redox homeostasis in plants. The challenge of living with endogenous oxygen production | Q37699501 | ||
| Cadmium stress: an oxidative challenge. | Q37723349 | ||
| Regulation of respiration in plants: a role for alternative metabolic pathways | Q37824047 | ||
| On the origins of nitric oxide | Q37824064 | ||
| Arabidopsis thaliana uncoupling proteins (AtUCPs): insights into gene expression during development and stress response and epigenetic regulation | Q37837646 | ||
| ROS signaling: the new wave? | Q37863874 | ||
| ROS and redox signalling in the response of plants to abiotic stress | Q37864370 | ||
| Phytoextraction of toxic metals: a central role for glutathione | Q37864372 | ||
| Chloroplastic and mitochondrial metal homeostasis | Q37864817 | ||
| The message of nitric oxide in cadmium challenged plants | Q37926677 | ||
| Mitochondria are the main target for oxidative damage in leaves of wheat (Triticum aestivum L.). | Q38895300 | ||
| The absence of ALTERNATIVE OXIDASE1a in Arabidopsis results in acute sensitivity to combined light and drought stress. | Q39024461 | ||
| Mitochondrial alterations related to programmed cell death in tobacco cells under aluminium stress. | Q39964323 | ||
| Cadmium affects tobacco cells by a series of three waves of reactive oxygen species that contribute to cytotoxicity | Q40240098 | ||
| Cadmium induced mitochondrial redox changes in germinating pea seed | Q43050371 | ||
| Uptake of chromium by Salvinia minima: effect on plant growth, leaf respiration and carbohydrate metabolism | Q43192073 | ||
| The involvement of lipid peroxide-derived aldehydes in aluminum toxicity of tobacco roots | Q43214489 | ||
| Transgenic plant cells lacking mitochondrial alternative oxidase have increased susceptibility to mitochondria-dependent and -independent pathways of programmed cell death | Q44102713 | ||
| Superoxide stimulates a proton leak in potato mitochondria that is related to the activity of uncoupling protein | Q44388709 | ||
| Leaf mitochondria modulate whole cell redox homeostasis, set antioxidant capacity, and determine stress resistance through altered signaling and diurnal regulation | Q44425309 | ||
| Molecular definition of the ascorbate-glutathione cycle in Arabidopsis mitochondria reveals dual targeting of antioxidant defenses in plants | Q44572767 | ||
| Identification of oxidised proteins in the matrix of rice leaf mitochondria by immunoprecipitation and two-dimensional liquid chromatography-tandem mass spectrometry | Q44994712 | ||
| Mitochondria/nuclear signaling of alternative oxidase gene expression occurs through distinct pathways involving organic acids and reactive oxygen species | Q45025785 | ||
| Activation and function of mitochondrial uncoupling protein in plants. | Q45084875 | ||
| The mitochondrial type II peroxiredoxin F is essential for redox homeostasis and root growth of Arabidopsis thaliana under stress. | Q45211619 | ||
| Production of reactive oxygen species, impairment of photosynthetic function and dynamic changes in mitochondria are early events in cadmium-induced cell death in Arabidopsis thaliana. | Q46005773 | ||
| Nitric oxide is involved in cadmium-induced programmed cell death in Arabidopsis suspension cultures | Q46100209 | ||
| Origin of cadmium-induced reactive oxygen species production: mitochondrial electron transfer versus plasma membrane NADPH oxidase | Q46553012 | ||
| The early responses of Arabidopsis thaliana cells to cadmium exposure explored by protein and metabolite profiling analyses | Q46964020 | ||
| Stress-induced co-expression of alternative respiratory chain components in Arabidopsis thaliana. | Q47761339 | ||
| A plant cold-induced uncoupling protein | Q48045241 | ||
| Effects of Iron Excess on Nicotiana plumbaginifolia Plants (Implications to Oxidative Stress). | Q49167695 | ||
| P275 | copyright license | Creative Commons Attribution 3.0 Unported | Q14947546 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 10 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | cell | Q7868 |
| mitochondrion | Q39572 | ||
| inorganic compound | Q190065 | ||
| metal | Q11426 | ||
| eukaryote | Q19088 | ||
| P304 | page(s) | 6894-6918 | |
| P577 | publication date | 2011-10-18 | |
| P1433 | published in | International Journal of Molecular Sciences | Q3153277 |
| P1476 | title | Metal-induced oxidative stress and plant mitochondria | |
| P478 | volume | 12 |
| Q46261079 | A Proteomic Approach to Investigate the Drought Response in the Orphan Crop Eragrostis tef. |
| Q27027679 | A central role for thiols in plant tolerance to abiotic stress |
| Q90013549 | Analysis of chickpea gene co-expression networks and pathways during heavy metal stress |
| Q41760738 | Barley responses to combined waterlogging and salinity stress: separating effects of oxygen deprivation and elemental toxicity |
| Q41918236 | Both the concentration and redox state of glutathione and ascorbate influence the sensitivity of arabidopsis to cadmium. |
| Q33363721 | Cadmium activates both diphenyleneiodonium- and rotenone-sensitive superoxide production in barley root tips |
| Q30315588 | Cadmium toxicity investigated at the physiological and biophysical levels under environmentally relevant conditions using the aquatic model plant Ceratophyllum demersum. |
| Q42407458 | Chromium-Induced Ultrastructural Changes and Oxidative Stress in Roots of Arabidopsis thaliana. |
| Q55431739 | Coping With Metal Toxicity - Cues From Halophytes. |
| Q26824022 | Effect of Heavy Metals in Plants of the Genus Brassica |
| Q46238076 | Efficiency of biogas slurry and Burkholderia phytofirmans PsJN to improve growth, physiology, and antioxidant activity of Brassica napus L. in chromium-contaminated soil |
| Q51311075 | Electrochemical detection of extracellular hydrogen peroxide in Arabidopsis thaliana: a real-time marker of oxidative stress. |
| Q35866009 | Glutathione is a key player in metal-induced oxidative stress defenses |
| Q57071681 | Growth Responses and Photosynthetic Indices of Bamboo Plant () under Heavy Metal Stress |
| Q26767505 | Heavy Metal Tolerance in Plants: Role of Transcriptomics, Proteomics, Metabolomics, and Ionomics |
| Q41123789 | Laccase-13 Regulates Seed Setting Rate by Affecting Hydrogen Peroxide Dynamics and Mitochondrial Integrity in Rice |
| Q38282584 | Lipids and proteins--major targets of oxidative modifications in abiotic stressed plants |
| Q28650861 | Mitochondrial functional impairment in response to environmental toxins in the cardiorenal metabolic syndrome |
| Q89597103 | Modulation of Cadmium Tolerance in Rice: Insight into Vanillic Acid-Induced Upregulation of Antioxidant Defense and Glyoxalase Systems |
| Q57191827 | Overexpression of RsMYB1 Enhances Anthocyanin Accumulation and Heavy Metal Stress Tolerance in Transgenic Petunia |
| Q64256925 | Overexpression of the Stress-Inducible Promotes Drought and Salt Resistance via the Regulation of Redox Homeostasis in |
| Q58606542 | PGPR Reduce Root Respiration and Oxidative Stress Enhancing Root Growth and Heavy Metal Rhizoaccumulation |
| Q44410324 | Photosynthesis mediated decrease in cadmium translocation protect shoot growth of Oryza sativa seedlings up on ammonium phosphate-sulfur fertilization |
| Q47992023 | Physiological mechanisms of a wetland plant (Echinodorus osiris Rataj) to cadmium detoxification |
| Q47300230 | RNA Editing Responses to Oxidative Stress between a Wild Abortive Type Male-Sterile Line and Its Maintainer Line |
| Q86692511 | Reactions to cadmium stress in a cadmium-tolerant variety of cabbage (Brassica oleracea L.): is cadmium tolerance necessarily desirable in food crops? |
| Q35286329 | Selenite activates the alternative oxidase pathway and alters primary metabolism in Brassica napus roots: evidence of a mitochondrial stress response |
| Q37007118 | Short-term chromium-stress-induced alterations in the maize leaf proteome |
| Q41855304 | Soil cadmium enrichment: Allocation and plant physiological manifestations |
| Q64109090 | Structural Evidence of Programmed Cell Death Induction by Tungsten in Root Tip Cells of |
| Q38258071 | The hydroxyl radical in plants: from seed to seed |
| Q38091945 | The influence of metal stress on the availability and redox state of ascorbate, and possible interference with its cellular functions |
| Q33356550 | The membrane-bound NAC transcription factor ANAC013 functions in mitochondrial retrograde regulation of the oxidative stress response in Arabidopsis |
| Q46630287 | The role of the kinase OXI1 in cadmium- and copper-induced molecular responses in Arabidopsis thaliana |
| Q39116923 | Variation in whole DNA methylation in red maple (Acer rubrum) populations from a mining region: association with metal contamination and cation exchange capacity (CEC) in podzolic soils |
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