about
European contribution to the study of ROS: A summary of the findings and prospects for the future from the COST action BM1203 (EU-ROS).Measurement and Clinical Significance of Biomarkers of Oxidative Stress in Humans.Effects of Visible-Light Irradiation of Protoporphyrin IX on the Self-Assembly of Tubulin HeterodimersChemotherapeutic efficacy of phosphodiesterase inhibitors in chagasic cardiomyopathy.Reactivity of disulfide bonds is markedly affected by structure and environment: implications for protein modification and stability.Protein Mediated Oxidative Stress in Patients with Diabetes and its Associated Neuropathy: Correlation with Protein Carbonylation and Disease Activity Markers.Formation of singlet oxygen by decomposition of protein hydroperoxide in photosystem II.A Peroxidase Peroxiredoxin 1-Specific Redox Regulation of the Novel FOXO3 microRNA Target let-7.Practical guide for dynamic monitoring of protein oxidation using genetically encoded ratiometric fluorescent biosensors of methionine sulfoxide.Crosstalk between calcium and reactive oxygen species signaling in cancer.Role of Mitochondrial Reactive Oxygen Species in the Activation of Cellular Signals, Molecules, and Function.Membrane Oxidation in Cell Delivery and Cell Killing Applications.Chronic administration of methionine and/or methionine sulfoxide alters oxidative stress parameters and ALA-D activity in liver and kidney of young rats.Oxygen-dependent activation of Cu,Zn-superoxide dismutase-1.The effects of photodynamic treatment with new methylene blue N on the Candida albicans proteome.Uranyl Photocleavage of Phosphopeptides Yields Truncated C-Terminally Amidated Peptide Products.HIV/HAART-associated oxidative stress is detectable by metabonomics.LC-MS/MS suggests that hole hopping in cytochrome c peroxidase protects its heme from oxidative modification by excess H2O2.Effect of Reduction of Redox Modifications of Cys-Residues in the Na,K-ATPase α1-Subunit on Its Activity.Modulation of proteostasis counteracts oxidative stress and affects DNA base excision repair capacity in ATM-deficient cells.The structure of Lactococcus lactis thioredoxin reductase reveals molecular features of photo-oxidative damage.Release of free amino acids upon oxidation of peptides and proteins by hydroxyl radicals.Chemical and Biophysical Characteristics of Monoclonal Antibody Solutions Containing Aggregates Formed during Metal Catalyzed Oxidation.Detection and Characterization of Reactive Oxygen and Nitrogen Species in Biological Systems by Monitoring Species-Specific Products.The differential role of reactive oxygen species in early and late stages of cancer.Post-illumination cellular effects of photodynamic treatment.Oxidation of proteins: is it a programmed process?Peroxynitrite preferentially oxidizes the dithiol redox motifs of protein disulfide isomerase.TARGETED AND OFF-TARGET (BYSTANDER AND ABSCOPAL) EFFECTS OF RADIATION THERAPY: REDOX MECHANISMS AND RISK-BENEFIT ANALYSIS.Impact of Hydrogen Bonding on the Susceptibility of Peptides to Oxidation.New tricks for an old dog: Brf2-dependent RNA Polymerase III transcription in oxidative stress and cancer.Claimed Effects, Outcome Variables and Methods of Measurement for Health Claims Proposed Under European Community Regulation 1924/2006 in the Framework of Maintenance of Skin Function.Differential gene expression induced by anti-cancer agent plumbagin is mediated by androgen receptor in prostate cancer cells.Electrons initiate efficient formation of hydroperoxides from cysteine.Gas Plasma Pre-treatment Increases Antibiotic Sensitivity and Persister Eradication in Methicillin-Resistant Staphylococcus aureus.Peroxidasin-mediated crosslinking of collagen IV is independent of NADPH oxidases.Selenium-Dependent Antioxidant Enzymes: Actions and Properties of Selenoproteins.Counteraction of Oxidative Stress by Vitamin E Affects Epigenetic Regulation by Increasing Global Methylation and Gene Expression of MLH1 and DNMT1 Dose Dependently in Caco-2 Cells.Origin and pathophysiology of protein carbonylation, nitration and chlorination in age-related brain diseases and aging.Improving catalytic activity of the Baeyer-Villiger monooxygenase-based Escherichia coli biocatalysts for the overproduction of (Z)-11-(heptanoyloxy)undec-9-enoic acid from ricinoleic acid.
P2860
Q33761211-409F950D-7FE2-495B-A6DF-E7ED5F905C5BQ33862472-54F4B744-3AE0-41CC-82E5-E07569F8C2DEQ36094835-86B99E7F-DF5C-49B7-9AD4-1C7BE3895326Q37341337-C9797403-7594-4511-B092-A0D39F54F9FBQ37493551-DC1B407B-199F-4D15-917A-E537B1CB7894Q37734095-F05DE4EF-24CC-4B6F-A626-2E911EB0CC8AQ38667906-85BBFFD8-6CEA-4A78-9160-2627BD05D648Q38842480-3EE5DA2F-ADE1-45D7-9B53-6D557D97D2B5Q38877547-9A5B04AB-E43E-4201-9BF5-0454F9C97A15Q39112253-6B93F806-2A54-4397-90F9-51444D7647ECQ39125420-25764EAE-A474-471A-9B78-FE8ADBC72864Q39206760-F5E6660F-1375-4ADD-80CC-2043870F4FBEQ39310558-D19D9F38-9A25-412F-B802-89DC248EF927Q39420851-10ADF30D-8A08-43B7-A224-3187CD206FF2Q40457925-5BDE62EE-B129-44A7-A27C-2D54DEC15066Q41019726-AE5E12E2-A1DB-4D73-82E3-907ABFA58908Q41935715-98EED786-CEA4-4BBA-B6F9-FFCAAC4451C5Q41965338-6457317C-FA38-42ED-B8CF-A64E640B2583Q41995236-4E681298-ADFB-40D2-A2DF-A0A27E65A4B2Q42040194-2B7B4D8E-5F3A-4035-8C05-D7A5CFEC971AQ42292257-BE34A962-C2F9-42C2-B1F2-6A590894EF0AQ42316122-36544AD5-8154-48E0-A874-84B00D334F6EQ46267230-65EF6E2A-D534-4414-A83A-E77D41BE9543Q46284098-D5203F7B-C259-427C-A44C-06A144E02899Q46317117-080B8635-ADF4-4904-8CE9-CF62FFC8E894Q47141289-55CFB009-2F07-4617-834B-D549CC41AC7EQ47249169-25BDCD11-F413-4A32-86D8-4E09B227EB18Q47344994-D93A969E-226A-4149-A45E-70D69480CB8DQ47558991-DB177A20-92E2-498F-8542-7B1DCE27AB7DQ48093721-A67B443E-0F4F-4D1E-A97F-547859F13AF3Q48155149-461F8518-A4DC-4948-AC3F-AD159B05A020Q48356525-76B0A6F3-0738-4E99-8F05-C3B53BFAB82DQ49186848-EDB67124-3427-4602-9C06-6AAF34780597Q51644086-33E5876C-AA19-4329-B8A2-65D4FB20D35DQ52599687-8865DDFF-1F4B-4E5B-99FA-E1269EC3C1D1Q52724485-66394042-EE41-4108-BA71-AB10000BAAF9Q55082777-9AC45E40-595D-434B-B222-65BEE45757D0Q55191939-65359ADC-AFD4-488E-BF3A-EB668F4535C3Q55262112-FB61EA4C-E5AB-4864-B875-44FB2E354C3BQ55534837-E6CD431C-29D2-413F-84BE-12FA502A6517
P2860
description
2016 nî lūn-bûn
@nan
2016 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2016 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
name
Protein oxidation and peroxidation
@ast
Protein oxidation and peroxidation
@en
Protein oxidation and peroxidation
@nl
type
label
Protein oxidation and peroxidation
@ast
Protein oxidation and peroxidation
@en
Protein oxidation and peroxidation
@nl
prefLabel
Protein oxidation and peroxidation
@ast
Protein oxidation and peroxidation
@en
Protein oxidation and peroxidation
@nl
P2860
P921
P3181
P356
P1433
P1476
Protein oxidation and peroxidation
@en
P2860
P304
P3181
P356
10.1042/BJ20151227
P407
P577
2016-04-01T00:00:00Z