Biologically relevant oxidants and terminology, classification and nomenclature of oxidatively generated damage to nucleobases and 2-deoxyribose in nucleic acids.
about
DNA Damage in Chronic Kidney Disease: Evaluation of Clinical BiomarkersIntroduction to radiobiology of targeted radionuclide therapyReactivity of Nucleic Acid Radicals.Generation of guanine-amino acid cross-links by a free radical combination mechanismQuantitative detection of 8-Oxo-7,8-dihydro-2'-deoxyguanosine using chemical tagging and qPCRCytosine-based nucleoside analogs are selectively lethal to DNA mismatch repair-deficient tumour cells by enhancing levels of intracellular oxidative stress.A micro-extraction technique using a new digitally controlled syringe combined with UHPLC for assessment of urinary biomarkers of oxidatively damaged DNA.The catalytic subunit of DNA-dependent protein kinase is required for cellular resistance to oxidative stress independent of DNA double-strand break repair.Comprehensive DNA adduct analysis reveals pulmonary inflammatory response contributes to genotoxic action of magnetite nanoparticlesUrinary biomarkers of oxidative status.Oxidative stress and HPV carcinogenesis.REDOX IMBALANCE IN LUNG CANCER OF PATIENTS WITH UNDERLYING CHRONIC RESPIRATORY CONDITIONS.Oxidatively damaged DNA in animals exposed to particles.DNA base damage by reactive oxygen species, oxidizing agents, and UV radiation.Functional interplay between ATM/ATR-mediated DNA damage response and DNA repair pathways in oxidative stress.Measurement of oxidative damage to DNA in nanomaterial exposed cells and animals.Role of oxidative stress in carbon nanotube-generated health effects.The role of intracellular redox imbalance in nanomaterial induced cellular damage and genotoxicity: a review.Biological and physiological role of reactive oxygen species--the good, the bad and the ugly.Covalent modification of DNA by α, β-unsaturated aldehydes derived from lipid peroxidation: Recent progress and challenges.The Molecular Effect of Diagnostic Absorbed Doses from 131I on Papillary Thyroid Cancer Cells In Vitro.Managing odds in stem cells: insights into the role of mitochondrial antioxidant enzyme MnSOD.DNA Product Formation in Female Sprague-Dawley Rats Following Polyhalogenated Aromatic Hydrocarbon (PHAH) Exposure.Coordination of DNA single strand break repair.Formation and repair of oxidatively generated damage in cellular DNA.8-Oxo-7,8-dihydroadenine and 8-Oxo-7,8-dihydroadenosine-Chemistry, Structure, and Function in RNA and Their Presence in Natural Products and Potential Drug Derivatives.Repair activity of oxidatively damaged DNA and telomere length in human lung epithelial cells after exposure to multi-walled carbon nanotubes.The Role of Humidity and Oxygen Level on Damage to DNA Induced by Soft X-rays and Low-Energy Electrons.Inducing cellular senescence in vitro by using genetically encoded photosensitizers.The Effect of Diagnostic Absorbed Doses from 131I on Human Thyrocytes in Vitro.Chironomus ramosus larvae exhibit DNA damage control in response to gamma radiation.Gossypetin, a naturally occurring hexahydroxy flavone, ameliorates gamma radiation-mediated DNA damage.Oxidative stress and its possible relation to lower urinary tract functional pathology.Assessment of evidence for nanosized titanium dioxide-generated DNA strand breaks and oxidatively damaged DNA in cells and animal models.Light-induced oxidant production by fluorescent proteins.Automated Cell-Based Quantitation of 8-OHdG Damage.The determination of physiological and DNA changes in seedlings of maize (Zea mays L.) seeds exposed to the waters of the Gediz River and copper heavy metal stress.Molecular hydrogen attenuates radiation-induced nucleobase damage to DNA in aerated aqueous solutions
P2860
Q26744636-30CF89ED-FFB9-4CA6-B110-CEFBC05C05B6Q26852029-60A234EC-4A20-40AC-AAFC-A0A733B208A4Q33699640-5D3A4899-6991-4BFF-9938-CC0065BE57A2Q33796566-0A41B6C7-4A2E-4D84-8F7F-9120AE7AC581Q33932851-1E932086-8D18-411A-B26A-C1FB4BFBE291Q34567112-9E647FB9-C1E9-43DD-8E8B-618CE4E73CB4Q34618810-3222AB09-0604-46FE-A837-81D3B5C406D5Q34707456-B76552F0-6991-44A0-B13A-1247308C1CD0Q35139079-7F7D7051-7F33-4FF9-9929-189530CF3D83Q36178739-866BEEF1-94E8-447B-948D-FECA114808EFQ36807150-7C9DECC6-AAA3-4851-9A9C-880AFAC73985Q37217006-44750C4C-5D27-4099-8920-3AD19FB5947CQ38076465-0F4090A4-0FD1-4660-9FEA-A882D7A18FD9Q38078916-485DAF80-9AFC-4589-960B-243ADF59FAF3Q38221703-0DA0D988-7C96-4173-BB70-C459665F8743Q38246730-C1F2153A-7F40-4B2F-9EEE-937D7416D1ABQ38248454-248621F4-94E6-40C1-93CA-E9B2B04648AEQ38271730-922F90D2-A6B3-4151-B99E-B6BE9EFE7EFBQ38442132-121B8F49-2CAD-4681-8B9D-436A5654B0DAQ38476688-355BCA2D-2E66-4512-B8ED-3B6F5D5B353AQ38700292-734BC371-4B33-4485-847A-C7AF23F1B889Q38743091-8A0F9029-2ABE-4FED-A33B-8EC7C123EB0BQ38957763-1991FBC0-DDD6-419F-BDE0-EA2FE8DAFF24Q39021578-7AADC151-4B20-4BD5-8A3C-524D231D7084Q39037391-30000317-98B9-4FA3-A026-CFAC1D583C1AQ39037533-748929A1-B5C3-49BA-B81F-8230F3F04199Q39485069-CF66F804-4041-409D-AF18-C36975190BA6Q41300399-BB83D881-9A34-4559-BA37-550ED6332C96Q42365810-E8FEB5AD-DF06-475E-B419-A9B6929E237BQ42407359-D01D97DD-935B-4CE3-AE22-775449C6D545Q42478329-7150904F-D75D-4660-B173-37F3BF641BB6Q44234560-A87106DD-AB7B-4668-B5D7-11646495A085Q46276286-B0B0B920-A8CA-40B4-AA4B-A16DB745B00FQ48238243-CBBED449-FBEF-491A-9373-DF9C0DC0F15DQ50097180-D5A01401-8331-449D-8497-EC37F3A2EDA8Q51393962-B1381FF9-F94D-4CD5-ABAF-5AB543F3EEBBQ54171434-C4F5D946-22E0-4E7E-B99F-E19FE61AD151Q56918800-10F5215E-269F-444C-A6C3-5F7997C8CF2F
P2860
Biologically relevant oxidants and terminology, classification and nomenclature of oxidatively generated damage to nucleobases and 2-deoxyribose in nucleic acids.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 22 February 2012
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Biologically relevant oxidants ...... -deoxyribose in nucleic acids.
@en
Biologically relevant oxidants ...... -deoxyribose in nucleic acids.
@nl
type
label
Biologically relevant oxidants ...... -deoxyribose in nucleic acids.
@en
Biologically relevant oxidants ...... -deoxyribose in nucleic acids.
@nl
prefLabel
Biologically relevant oxidants ...... -deoxyribose in nucleic acids.
@en
Biologically relevant oxidants ...... -deoxyribose in nucleic acids.
@nl
P2093
P2860
P50
P1476
Biologically relevant oxidants ...... 2-deoxyribose in nucleic acids
@en
P2093
J Richard Wagner
Marc M Greenberg
Mark D Evans
Peter Møller
P2860
P304
P356
10.3109/10715762.2012.659248
P577
2012-02-22T00:00:00Z