Reactions of myeloperoxidase-derived oxidants with biological substrates: gaining chemical insight into human inflammatory diseases.
about
Bleach activates a redox-regulated chaperone by oxidative protein unfoldingProtein oxidation and peroxidationWhat really happens in the neutrophil phagosome?The cell death protease Kex1p is essential for hypochlorite-induced apoptosis in yeast.Myeloperoxidase: a front-line defender against phagocytosed microorganismsEffect of antioxidants on enzyme-catalysed biodegradation of carbon nanotubesSulfenic acid chemistry, detection and cellular lifetimeMethionine oxidation contributes to bacterial killing by the myeloperoxidase system of neutrophils.Chlorine dioxide is a size-selective antimicrobial agentHypochlorite modification of sphingomyelin generates chlorinated lipid species that induce apoptosis and proteome alterations in dopaminergic PC12 neurons in vitro.Myeloperoxidase-derived oxidants selectively disrupt the protein core of the heparan sulfate proteoglycan perlecan.Small molecular, macromolecular, and cellular chloramines react with thiocyanate to give the human defense factor hypothiocyanite.Neutrophil bleaching of GFP-expressing staphylococci: probing the intraphagosomal fate of individual bacteria.Myeloperoxidase-induced genomic DNA-centered radicalsThe myeloperoxidase-derived oxidant HOSCN inhibits protein tyrosine phosphatases and modulates cell signalling via the mitogen-activated protein kinase (MAPK) pathway in macrophagesElucidating mechanisms of chlorine toxicity: reaction kinetics, thermodynamics, and physiological implications.Myeloperoxidase-derived oxidation: mechanisms of biological damage and its preventionCytokines induced neutrophil extracellular traps formation: implication for the inflammatory disease condition.Kinetic studies on the reaction between dicyanocobinamide and hypochlorous acidActivation of RidA chaperone function by N-chlorinationMyeloperoxidase in human neutrophil host defence.Mass spectrometry and inflammation--MS methods to study oxidation and enzyme-induced changes of phospholipids.Protein quality control under oxidative stress conditions.Selenium-containing amino acids are targets for myeloperoxidase-derived hypothiocyanous acid: determination of absolute rate constants and implications for biological damageThiocyanate supplementation decreases atherosclerotic plaque in mice expressing human myeloperoxidase.Potent antioxidative activity of lycopene: A potential role in scavenging hypochlorous acidThe fluorescein-derived dye aminophenyl fluorescein is a suitable tool to detect hypobromous acid (HOBr)-producing activity in eosinophilsProconvertase proteolytic processing of an enzymatically active myeloperoxidase precursorFecal Myeloperoxidase as a Biomarker for Inflammatory Bowel Disease.Chemical and cytokine features of innate immunity characterize serum and tissue profiles in inflammatory bowel diseaseMyeloperoxidase-derived oxidants inhibit sarco/endoplasmic reticulum Ca2+-ATPase activity and perturb Ca2+ homeostasis in human coronary artery endothelial cells.Biochemical mechanisms and therapeutic potential of pseudohalide thiocyanate in human health.The reaction of HOCl and cyanocobalamin: corrin destruction and the liberation of cyanogen chloride.Myeloperoxidase inactivates TIMP-1 by oxidizing its N-terminal cysteine residue: an oxidative mechanism for regulating proteolysis during inflammation.Antioxidant functions for the hemoglobin β93 cysteine residue in erythrocytes and in the vascular compartment in vivo.Hypochlorous acid converts the gamma-glutamyl group of glutathione disulfide to 5-hydroxybutyrolactam, a potential marker for neutrophil activation.Hypochlorous acid reacts with the N-terminal methionines of proteins to give dehydromethionine, a potential biomarker for neutrophil-induced oxidative stress.The role of hypothiocyanous acid (HOSCN) in biological systems.Mechanisms and consequences of oxidative damage to extracellular matrix.Reactions and reactivity of myeloperoxidase-derived oxidants: differential biological effects of hypochlorous and hypothiocyanous acids.
P2860
Q24643056-181A6B5E-F052-4186-A6FF-5CC5CAEC805AQ26749487-006E95EE-C754-45A0-8A5A-BE5405A327B0Q26995028-E7BC69E6-405B-41A0-81A9-AC9D2F574C51Q27937978-A62E40EB-66CB-4791-A353-AC96C2751908Q28393101-96A1116B-4BDB-4336-9935-99E14E2BB6DEQ28397275-EFB3060D-348C-4F89-9868-11AA35B61508Q29011150-1E28DF6D-D2FD-4B07-A6F7-38FB5B4421E7Q30491478-B0B79FCA-1C7D-46DD-A3E1-9139E97AAC5DQ31143715-0888099F-8A45-4645-9AD9-CF10A4770D45Q33540468-AADC1AE4-A747-4C7C-A06D-5148A5BEB339Q33637014-C2443786-7361-47BB-894C-17A937B767A5Q33699260-1FD0E706-96F5-4D3E-AAF0-743D6B1F9DF8Q33895971-53F547DA-1692-426A-8E19-5627776559A9Q33924362-455F8075-0322-4DD1-945E-62CAA58EBB26Q34026753-9ACBF8FE-83A3-4C5B-88AE-84CCE3B8F81BQ34119269-3F391689-347F-42C1-806A-029960420595Q34162955-3C92F7FB-B320-4298-AE71-21E8EF76C53DQ34460950-87E77413-8A1C-4246-9CB3-EAED94CC758EQ34464974-1C91F760-9F1A-425F-89D1-743558C9241DQ34836263-B6A0DF97-2800-4EE7-B7A7-114F7183E4C2Q34994685-B861D730-73B5-4EBC-B0D4-2E50285FF418Q35074231-0858AA4A-85F2-4135-A39E-55092136E99AQ35171206-CC88D7E4-0470-49CA-AD89-73F24094FB3DQ35623038-E57C2DDD-B5BE-4C2F-B159-C4206F41D5FBQ35702958-078ED153-6F71-4264-BFCB-40CB37E06F33Q36154620-29EDD8A2-0FB0-477E-9C43-5C5BA8EB87D4Q36201925-84EE6D6B-5B67-41EE-A396-3D9AC10F5CD4Q36282271-29B1FB3E-5F75-4336-A977-24BD5E8949E0Q36305774-1975AFFA-044F-4AB2-8CF5-2AB80E4A0161Q36967764-9C9C16E2-9E0C-48A8-A6E0-8B7E199DA2A0Q37078673-90E25E22-BC7C-4C67-93C5-018C6C669BC9Q37122833-E2A3736B-1B1C-40DD-8AC3-1F55D50914C3Q37205406-16DBB92C-3355-4ED1-956D-9646C4C26E70Q37265070-2C4DA318-E275-4B29-A877-CB755F34D765Q37289767-51BF866C-D80F-4806-BA3E-208255D5E0C3Q37446863-2E38F386-4BD0-436C-9CA5-A55DC613F410Q37485508-C6DB638F-F524-42CF-995C-FF32AD8F4F70Q37631070-A99AD672-640C-435F-8CCF-949FD168EC8FQ37936512-675F4CBC-1A71-4325-91BD-0B7C027CCEF1Q37986199-FC0B1D83-5813-42D7-B8C4-47E107D3A841
P2860
Reactions of myeloperoxidase-derived oxidants with biological substrates: gaining chemical insight into human inflammatory diseases.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Reactions of myeloperoxidase-d ...... o human inflammatory diseases.
@ast
Reactions of myeloperoxidase-d ...... o human inflammatory diseases.
@en
type
label
Reactions of myeloperoxidase-d ...... o human inflammatory diseases.
@ast
Reactions of myeloperoxidase-d ...... o human inflammatory diseases.
@en
prefLabel
Reactions of myeloperoxidase-d ...... o human inflammatory diseases.
@ast
Reactions of myeloperoxidase-d ...... o human inflammatory diseases.
@en
P1476
Reactions of myeloperoxidase-d ...... o human inflammatory diseases.
@en
P2093
Pattison DI
P304
P356
10.2174/092986706778773095
P577
2006-01-01T00:00:00Z