Reactive Oxygen Species
"Reactive Oxygen Species" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus,
MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure,
which enables searching at various levels of specificity.
Molecules or ions formed by the incomplete one-electron reduction of oxygen. These reactive oxygen intermediates include SINGLET OXYGEN; SUPEROXIDES; PEROXIDES; HYDROXYL RADICAL; and HYPOCHLOROUS ACID. They contribute to the microbicidal activity of PHAGOCYTES, regulation of SIGNAL TRANSDUCTION and GENE EXPRESSION, and the oxidative damage to NUCLEIC ACIDS; PROTEINS; and LIPIDS.
Descriptor ID |
D017382
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MeSH Number(s) |
D01.339.431 D01.650.775
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Concept/Terms |
Reactive Oxygen Species- Reactive Oxygen Species
- Oxygen Species, Reactive
- Active Oxygen
- Oxygen, Active
- Oxygen Radicals
- Pro-Oxidants
- Pro Oxidants
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Below are MeSH descriptors whose meaning is more general than "Reactive Oxygen Species".
Below are MeSH descriptors whose meaning is more specific than "Reactive Oxygen Species".
This graph shows the total number of publications written about "Reactive Oxygen Species" by people in this website by year, and whether "Reactive Oxygen Species" was a major or minor topic of these publications.
To see the data from this visualization as text, click here.
Year | Major Topic | Minor Topic | Total |
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1994 | 2 | 1 | 3 | 1995 | 2 | 2 | 4 | 1996 | 1 | 3 | 4 | 1997 | 0 | 2 | 2 | 1998 | 1 | 1 | 2 | 1999 | 1 | 2 | 3 | 2000 | 1 | 1 | 2 | 2001 | 0 | 6 | 6 | 2002 | 4 | 7 | 11 | 2003 | 7 | 8 | 15 | 2004 | 8 | 14 | 22 | 2005 | 8 | 9 | 17 | 2006 | 5 | 8 | 13 | 2007 | 2 | 12 | 14 | 2008 | 5 | 12 | 17 | 2009 | 6 | 9 | 15 | 2010 | 3 | 17 | 20 | 2011 | 5 | 21 | 26 | 2012 | 4 | 24 | 28 | 2013 | 3 | 25 | 28 | 2014 | 1 | 21 | 22 | 2015 | 5 | 6 | 11 | 2016 | 2 | 14 | 16 | 2017 | 5 | 12 | 17 | 2018 | 1 | 14 | 15 | 2019 | 5 | 19 | 24 | 2020 | 1 | 2 | 3 |
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Below are the most recent publications written about "Reactive Oxygen Species" by people in Profiles.
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Rossman MJ, Gioscia-Ryan RA, Clayton ZS, Murphy MP, Seals DR. Targeting mitochondrial fitness as a strategy for healthy vascular aging. Clin Sci (Lond). 2020 06 26; 134(12):1491-1519.
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Zeineldin M, Federico S, Chen X, Fan Y, Xu B, Stewart E, Zhou X, Jeon J, Griffiths L, Nguyen R, Norrie J, Easton J, Mulder H, Yergeau D, Liu Y, Wu J, Van Ryn C, Naranjo A, Hogarty MD, Kaminski MM, Valentine M, Pruett-Miller SM, Pappo A, Zhang J, Clay MR, Bahrami A, Vogel P, Lee S, Shelat A, Sarthy JF, Meers MP, George RE, Mardis ER, Wilson RK, Henikoff S, Downing JR, Dyer MA. MYCN amplification and ATRX mutations are incompatible in neuroblastoma. Nat Commun. 2020 02 14; 11(1):913.
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Singh PK, Gari M, Choudhury S, Shukla A, Gangwar N, Garg SK. Oleic Acid Prevents Isoprenaline-Induced Cardiac Injury: Effects on Cellular Oxidative Stress, Inflammation and Histopathological Alterations. Cardiovasc Toxicol. 2020 02; 20(1):28-48.
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Nandi SK, Chakraborty A, Panda AK, Biswas A. M. leprae HSP18 suppresses copper (II) mediated ROS generation: Effect of redox stress on its structure and function. Int J Biol Macromol. 2020 Mar 01; 146:648-660.
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Alsaleh NB, Minarchick VC, Mendoza RP, Sharma B, Podila R, Brown JM. Silver nanoparticle immunomodulatory potential in absence of direct cytotoxicity in RAW 264.7 macrophages and MPRO 2.1 neutrophils. J Immunotoxicol. 2019 12; 16(1):63-73.
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McDaniel DK, Ringel-Scaia VM, Morrison HA, Coutermarsh-Ott S, Council-Troche M, Angle JW, Perry JB, Davis G, Leng W, Minarchick V, Yang Y, Chen B, Reece SW, Brown DA, Cecere TE, Brown JM, Gowdy KM, Hochella MF, Allen IC. Pulmonary Exposure to Magnéli Phase Titanium Suboxides Results in Significant Macrophage Abnormalities and Decreased Lung Function. Front Immunol. 2019; 10:2714.
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Persaud I, Raghavendra AJ, Paruthi A, Alsaleh NB, Minarchick VC, Roede JR, Podila R, Brown JM. Defect-induced electronic states amplify the cellular toxicity of ZnO nanoparticles. Nanotoxicology. 2020 03; 14(2):145-161.
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Ko J, Kang HJ, Kim DA, Kim MJ, Ryu ES, Lee S, Ryu JH, Roncal C, Johnson RJ, Kang DH. Uric acid induced the phenotype transition of vascular endothelial cells via induction of oxidative stress and glycocalyx shedding. FASEB J. 2019 12; 33(12):13334-13345.
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Newman DL, Gregory SL. Co-Operation between Aneuploidy and Metabolic Changes in Driving Tumorigenesis. Int J Mol Sci. 2019 Sep 18; 20(18).
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Joksimovic SM, DiGruccio MR, Boscolo A, Jevtovic-Todorovic V, Todorovic SM. The Role of Free Oxygen Radicals in Lasting Hyperexcitability of Rat Subicular Neurons After Exposure to General Anesthesia During Brain Development. Mol Neurobiol. 2020 Jan; 57(1):208-216.
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