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The effect of neighboring methionine residue on tyrosine nitration and oxidation in peptides treated with MPO, H2O2, and NO2(-) or peroxynitrite and bicarbonate: role of intramolecular electron transfer mechanism?Nitroxyl (HNO) reacts with molecular oxygen and forms peroxynitrite at physiological pH. Biological Implications.Mitigation of NADPH Oxidase 2 Activity as a Strategy to Inhibit Peroxynitrite Formation.Reaction between peroxynitrite and triphenylphosphonium-substituted arylboronic acid isomers: identification of diagnostic marker products and biological implicationsToward selective detection of reactive oxygen and nitrogen species with the use of fluorogenic probes--Limitations, progress, and perspectives.Modified Metformin as a More Potent Anticancer Drug: Mitochondrial Inhibition, Redox Signaling, Antiproliferative Effects and Future EPR Studies.A kinetic study on the reactivity of azanone (HNO) toward its selected scavengers: Insight into its chemistry and detection.Detection and differentiation between peroxynitrite and hydroperoxides using mitochondria-targeted arylboronic acid.Mitochondria-targeted metformins: anti-tumour and redox signalling mechanisms.Boronate probes as diagnostic tools for real time monitoring of peroxynitrite and hydroperoxides.Mitochondria-Targeted Triphenylphosphonium-Based Compounds: Syntheses, Mechanisms of Action, and Therapeutic and Diagnostic Applications.On the use of fluorescence lifetime imaging and dihydroethidium to detect superoxide in intact animals and ex vivo tissues: a reassessment.Direct oxidation of boronates by peroxynitrite: mechanism and implications in fluorescence imaging of peroxynitrite.Mechanistic aspects of radiation-induced oligomerization of 3,4-ethylenedioxythiophene in ionic liquids.Radicals and radical ions derived from indole, indole-3-carbinol and diindolylmethane.Dihalide and pseudohalide radical anions as oxidizing agents in nonaqueous solvents.Real-time monitoring of reactive oxygen and nitrogen species in a multiwell plate using the diagnostic marker products of specific probes.Detection and Characterization of Reactive Oxygen and Nitrogen Species in Biological Systems by Monitoring Species-Specific Products.Recent Developments in the Probes and Assays for Measurement of the Activity of NADPH Oxidases.Characterization of Fluorescein-Based Monoboronate Probe and Its Application to the Detection of Peroxynitrite in Endothelial Cells Treated with Doxorubicin.Mechanism of oxidative conversion of Amplex® Red to resorufin: Pulse radiolysis and enzymatic studies.Disproportionation of clozapine radical: a link between one-electron oxidation of clozapine and formation of its nitrenium cation.Anthralin: primary products of its redox reactions.Mechanistic aspects of the oxidative and reductive fragmentation of N-nitrosoamines: a new method for generating nitrenium cations, amide anions, and aminyl radicalsRadical scavenging and NO-releasing properties of selected beta-adrenoreceptor antagonistsMechanistic aspects of alloxan diabetogenic activity: a key role of keto-enol inversion of dialuric acid on ionizationFluorescent probes for the detection of nitroxyl (HNO)
P50
Q33867851-552486BF-6B46-4081-9623-8211B9D8D6DEQ34738088-D47C97CA-FF96-431D-90CB-FAE1E625D3E6Q35912784-566DA164-C007-46E8-9077-8377B81DCB72Q36979223-747498E5-F1DD-42AE-BB07-815F408FEF69Q38576820-D79089F8-58ED-4755-9560-5567C7A56649Q38692444-B89C6D45-8C56-48F2-972D-76A09562C03BQ38773312-74E5BE36-1238-4ED7-AF42-CD01FEC2A350Q38915563-90F1D5E1-1560-4076-B403-78DC2D537B6DQ39223398-47CBA313-190C-4602-BC70-D06BF4DE59EBQ39325631-925179FB-01B3-4E68-89D0-3A6B07B6D27DQ39400621-5D4DDC2E-A8AB-4982-8192-298B3DDE925FQ41945075-EFBD91DF-22BC-403D-8F52-4F2C4F90D95AQ42202476-C1929F50-EF5D-415D-AECE-39A0348EC42BQ42865478-594113F4-CD5D-4C7C-A3BA-DB3367779C91Q43044277-52B8A019-04CD-4FFE-8767-46200D91205EQ43241468-20B83917-E7EB-4BD7-9F85-CAB6CDDEC6C4Q45135332-4E632B2A-DF14-4A30-8CF9-71BFCEDBA948Q46284098-8EB82AE6-19AF-40A7-8A89-B39784DAA976Q46343029-D38F799B-8340-48B3-AB27-361A1CCB51D0Q46563213-94AAF23D-DEB7-4DB9-A8F7-F22B1D6B071EQ46572554-FC2B338A-BA72-43F7-B851-77C60EFE8F86Q51910378-96AA703B-9817-4B70-A471-2F35D79EB696Q53614644-3269C47F-116D-429C-BABF-9AD3A1AAB66CQ79845605-404F1C82-E08D-4D45-B934-8135EC9FD780Q80289098-A12A6E4E-9D38-4EA7-A51A-48CACAFE2E1DQ83883712-A7539263-D72F-4819-9813-E0417580DA29Q88500549-B876E571-8DC2-43F3-882E-4066599E3BD6
P50
description
hulumtues
@sq
researcher
@en
հետազոտող
@hy
name
Adam Sikora
@ast
Adam Sikora
@en
Adam Sikora
@es
Adam Sikora
@nl
type
label
Adam Sikora
@ast
Adam Sikora
@en
Adam Sikora
@es
Adam Sikora
@nl
prefLabel
Adam Sikora
@ast
Adam Sikora
@en
Adam Sikora
@es
Adam Sikora
@nl
P1053
I-2756-2014
P106
P21
P31
P3829
P496
0000-0002-4962-8945