| scholarly article | Q13442814 |
| P356 | DOI | 10.1111/CMI.12312 |
| P8608 | Fatcat ID | release_bhm6nnrfjvh5navvupouaklqee |
| P932 | PMC publication ID | 4301731 |
| P698 | PubMed publication ID | 24844117 |
| P5875 | ResearchGate publication ID | 262456078 |
| P2093 | author name string | William M Nauseef | |
| P2860 | cites work | Differential host susceptibility to pulmonary infections with bacteria and fungi in mice deficient in myeloperoxidase | Q74296102 |
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| Anion channels, including ClC-3, are required for normal neutrophil oxidative function, phagocytosis, and transendothelial migration | Q24306762 | ||
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| Chlorination of taurine by human neutrophils. Evidence for hypochlorous acid generation | Q24603397 | ||
| Bleach activates a redox-regulated chaperone by oxidative protein unfolding | Q24643056 | ||
| What really happens in the neutrophil phagosome? | Q26995028 | ||
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| Structural and functional aspects of thyroid peroxidase | Q28267047 | ||
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| Severe impairment in early host defense against Candida albicans in mice deficient in myeloperoxidase | Q28588047 | ||
| Voltage-gated proton channels: molecular biology, physiology, and pathophysiology of the H(V) family | Q28681630 | ||
| Pathways of Oxidative Damage | Q29615094 | ||
| Myeloperoxidase: friend and foe | Q29619070 | ||
| Methionine oxidation contributes to bacterial killing by the myeloperoxidase system of neutrophils | Q30491478 | ||
| Reaction of myeloperoxidase compound I with chloride, bromide, iodide, and thiocyanate. | Q31919165 | ||
| CFTR-mediated halide transport in phagosomes of human neutrophils | Q33806624 | ||
| Myeloperoxidase-dependent effect of amines on functions of isolated neutrophils. | Q33821998 | ||
| Substantial DNA damage from submicromolar intracellular hydrogen peroxide detected in Hpx- mutants of Escherichia coli | Q33878960 | ||
| Neutrophil bleaching of GFP-expressing staphylococci: probing the intraphagosomal fate of individual bacteria | Q33895971 | ||
| Neutrophils employ the myeloperoxidase system to generate antimicrobial brominating and chlorinating oxidants during sepsis | Q33947266 | ||
| Heme to protein linkages in mammalian peroxidases: impact on spectroscopic, redox and catalytic properties | Q34004418 | ||
| Direct real-time evaluation of nitration with green fluorescent protein in solution and within human cells reveals the impact of nitrogen dioxide vs. peroxynitrite mechanisms | Q34018617 | ||
| Myeloperoxidase-Hydrogen Peroxide-Chloride Antimicrobial System: Effect of Exogenous Amines on Antibacterial Action Against Escherichia coli | Q34087839 | ||
| Microbicidal mechanisms of human granulocytes: synergistic effects of granulocyte elastase and myeloperoxidase or chymotrypsin-like cationic protein | Q34136996 | ||
| Leukocyte myeloperoxidase deficiency and disseminated candidiasis: the role of myeloperoxidase in resistance to Candida infection | Q34239803 | ||
| Oxidative inactivation of Escherichia coli by hypochlorous acid. Rates and differentiation of respiratory from other reaction sites | Q34253567 | ||
| Oxidative damage to fibronectin. I. The effects of the neutrophil myeloperoxidase system and HOCl | Q34777504 | ||
| mRNA expression profiles for Escherichia coli ingested by normal and phagocyte oxidase-deficient human neutrophils | Q34785700 | ||
| Methionine sulfoxide reductases protect against oxidative stress in Staphylococcus aureus encountering exogenous oxidants and human neutrophils | Q35046066 | ||
| Release of ovoperoxidase from sea urchin eggs hardens the fertilization membrane with tyrosine crosslinks | Q35055848 | ||
| Myeloperoxidase-halide-hydrogen peroxide antibacterial system | Q35151386 | ||
| Redundant contribution of myeloperoxidase-dependent systems to neutrophil-mediated killing of Escherichia coli | Q35556433 | ||
| Myeloperoxidase in kidney disease | Q35591272 | ||
| Hypochlorite-induced oxidation of amino acids, peptides and proteins. | Q35602237 | ||
| Myeloperoxidase targets apolipoprotein A-I, the major high density lipoprotein protein, for site-specific oxidation in human atherosclerotic lesions | Q35838851 | ||
| Chemiluminescence and superoxide production by myeloperoxidase-deficient leukocytes | Q35902289 | ||
| Iodination of bacteria: a bactericidal mechanism | Q36268926 | ||
| The disconnect between animal models of sepsis and human sepsis | Q36614258 | ||
| Reactions of myeloperoxidase-derived oxidants with biological substrates: gaining chemical insight into human inflammatory diseases | Q36683909 | ||
| Augmented inducible nitric oxide synthase expression and increased NO production reduce sepsis-induced lung injury and mortality in myeloperoxidase-null mice. | Q36808024 | ||
| How human neutrophils kill and degrade microbes: an integrated view | Q36938609 | ||
| Mouse neutrophils lack defensins | Q36950015 | ||
| Cystic fibrosis transmembrane conductance regulator recruitment to phagosomes in neutrophils | Q37029698 | ||
| Chemotactic Factor Inactivation by the Myeloperoxidase-Hydrogen Peroxide-Halide System | Q37042134 | ||
| Myeloperoxidase, modified lipoproteins, and atherogenesis | Q37353408 | ||
| Modification of high density lipoprotein by myeloperoxidase generates a pro-inflammatory particle | Q37431348 | ||
| Myeloperoxidase: a leukocyte-derived protagonist of inflammation and cardiovascular disease | Q38028558 | ||
| Redox reactions and microbial killing in the neutrophil phagosome | Q38033626 | ||
| Leukocytic oxygen activation and microbicidal oxidative toxins | Q38285474 | ||
| Chloride transport in functionally active phagosomes isolated from Human neutrophils | Q38429714 | ||
| The role of chloride anion and CFTR in killing of Pseudomonas aeruginosa by normal and CF neutrophils | Q38457401 | ||
| CFTR Expression in human neutrophils and the phagolysosomal chlorination defect in cystic fibrosis | Q38466689 | ||
| Hydrogen cyanide and cyanogen chloride formation by the myeloperoxidase-H2O2-Cl− system | Q39251455 | ||
| K⁺-Cl⁻ cotransport mediates the bactericidal activity of neutrophils by regulating NADPH oxidase activation | Q39360273 | ||
| Involvement of superoxide and myeloperoxidase in oxygen-dependent killing of Staphylococcus aureus by neutrophils | Q39825879 | ||
| Granule enzymes of polymorphonuclear neutrophils: A phylogenetic comparison | Q39967120 | ||
| Termination of the Respiratory Burst in Human Neutrophils | Q40152532 | ||
| Hydrogen peroxide utilization in myeloperoxidase-deficient leukocytes: a possible microbicidal control mechanism | Q40325519 | ||
| Absolute rate constants for the reaction of hypochlorous acid with protein side chains and peptide bonds | Q40681776 | ||
| Phagocytosing human neutrophils inactivate their own granular enzymes | Q40683509 | ||
| Studies on peroxidative detoxification of purified diphtheria toxin | Q41828028 | ||
| Hypochlorous acid oxygenates the cysteine switch domain of pro-matrilysin (MMP-7). A mechanism for matrix metalloproteinase activation and atherosclerotic plaque rupture by myeloperoxidase | Q43726485 | ||
| Chlorination of bacterial and neutrophil proteins during phagocytosis and killing of Staphylococcus aureus | Q43815802 | ||
| Critical role of myeloperoxidase and nicotinamide adenine dinucleotide phosphate-oxidase in high-burden systemic infection of mice with Candida albicans | Q44042268 | ||
| Relative contributions of myeloperoxidase and NADPH-oxidase to the early host defense against pulmonary infections with Candida albicans and Aspergillus fumigatus | Q44273945 | ||
| Redox properties of the couples compound I/compound II and compound II/native enzyme of human myeloperoxidase | Q44301559 | ||
| Role of myeloperoxidase-mediated antimicrobial systems in intact leukocytes | Q44323452 | ||
| Hypochlorous acid generated by myeloperoxidase modifies adjacent tryptophan and glycine residues in the catalytic domain of matrix metalloproteinase-7 (matrilysin): an oxidative mechanism for restraining proteolytic activity during inflammation | Q44448828 | ||
| Proteome profiling of human neutrophil granule subsets, secretory vesicles, and cell membrane: correlation with transcriptome profiling of neutrophil precursors. | Q45345625 | ||
| Identification of plasma proteins that are susceptible to thiol oxidation by hypochlorous acid and N-chloramines | Q46432544 | ||
| Green fluorescent protein-expressing Escherichia coli as a selective probe for HOCl generation within neutrophils | Q46467631 | ||
| Methionine sulfoxide and proteolytic cleavage contribute to the inactivation of cathepsin G by hypochlorous acid: an oxidative mechanism for regulation of serine proteinases by myeloperoxidase | Q46557733 | ||
| A sensitive and selective assay for chloramine production by myeloperoxidase | Q46794251 | ||
| Contribution of the myeloperoxidase-dependent oxidative system to host defence against Cryptococcus neoformans | Q48445429 | ||
| Role of compartmentation in promoting toxicity of leukocyte-generated strong oxidants. | Q52332522 | ||
| Inactivation of protease inhibitors and lysozyme by hypochlorous acid: role of side-chain oxidation and protein unfolding in loss of biological function. | Q52569256 | ||
| Myeloperoxidase: contribution to the microbicidal activity of intact leukocytes. | Q53743142 | ||
| Chloramines as intermediates of oxidation reaction of amino acids by myeloperoxidase. | Q53870899 | ||
| Common methodology is inadequate for studies on the microbicidal activity of neutrophils. | Q54476479 | ||
| Assessment of chlorination by human neutrophils | Q59068416 | ||
| Detoxicating Effect of Verdoperoxidase on Toxins | Q60118773 | ||
| Spectral and Kinetic Studies on the Formation of Myeloperoxidase Compounds I and II: Roles of Hydrogen Peroxide and Superoxide | Q62590168 | ||
| Inactivation of lysosomal enzymes by the respiratory burst of polymorphonuclear leukocytes. Possible involvement of myeloperoxidase-H2O2-halide system | Q67236093 | ||
| Myeloperoxidase-catalyzed incorporation of amines into proteins: role of hypochlorous acid and dichloramines | Q67253835 | ||
| Role of myeloperoxidase in the respiratory burst of human neutrophils | Q67264676 | ||
| Neutrophil granulocyte function in vitro. Evaluation of a fluid-phase leucocyte-bacteria reaction system | Q68528330 | ||
| Cytotoxicity of chloramines | Q68938025 | ||
| Neutrophils autoinactivate secretory products by myeloperoxidase-catalyzed oxidation | Q70077624 | ||
| Oxidative autoactivation of latent collagenase by human neutrophils | Q70078418 | ||
| Myeloperoxidase of human leukaemic leucocytes. Oxidation of amino acids in the presence of hydrogen peroxide | Q70940747 | ||
| Myeloperoxidase-catalyzed inactivation of alpha 1-protease inhibitor by human neutrophils | Q72629448 | ||
| Chemotactic factor inactivation by myeloperoxidase-mediated oxidation of methionine | Q72847306 | ||
| Hereditary myeloperoxidase deficiency | Q72886189 | ||
| [The Alius-Grignaschi anomaly: the hereditary constitutional peroxidase defect of the neutrophils and monocytes] | Q72897799 | ||
| Bactericidal properties of hydrogen peroxide and copper or iron-containing complex ions in relation to leukocyte function | Q73218382 | ||
| Prevalence of inherited myeloperoxidase deficiency in Japan | Q73897142 | ||
| P433 | issue | 8 | |
| P921 | main subject | human neutrophil | Q101405102 |
| P304 | page(s) | 1146-1155 | |
| P577 | publication date | 2014-06-19 | |
| P1433 | published in | Cellular Microbiology | Q1921948 |
| P1476 | title | Myeloperoxidase in human neutrophil host defence | |
| P478 | volume | 16 |
| Q48161063 | 1H, 15N, and 13C resonance assignments of the third domain from the S. aureus innate immune evasion protein Eap. |
| Q47227122 | A Structurally Dynamic N-terminal Region Drives Function of the Staphylococcal Peroxidase Inhibitor (SPIN). |
| Q33643069 | A combination of routine blood analytes predicts fitness decrement in elderly endurance athletes |
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| Q33744905 | Berberine alleviates dextran sodium sulfate-induced colitis by improving intestinal barrier function and reducing inflammation and oxidative stress |
| Q50167687 | Biosynthesis of human myeloperoxidase |
| Q36902091 | Broad-spectrum antimicrobial photocatalysis mediated by titanium dioxide and UVA is potentiated by addition of bromide ion via formation of hypobromite |
| Q38936533 | Chloride flux in phagocytes |
| Q46384184 | Chlorinated Flavonoids Modulate the Inflammatory Process in Human Blood |
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| Q36731719 | Comparison of the Pulmonary Oxidative Stress Caused by Intratracheal Instillation and Inhalation of NiO Nanoparticles when Equivalent Amounts of NiO Are Retained in the Lung |
| Q30275717 | Comparisons between myeloperoxidase, lactoferrin, calprotectin and lipocalin-2, as fecal biomarkers of intestinal inflammation in malnourished children |
| Q44612676 | Control of Phagocytosis by Microbial Pathogens. |
| Q40035861 | Coronary leukocyte activation in relation to progression of coronary artery disease |
| Q38635530 | Current and future therapies for Pseudomonas aeruginosa infection in patients with cystic fibrosis. |
| Q97073238 | Dietary reference values for chloride |
| Q90753192 | Experimental models and methods for cutaneous wound healing assessment |
| Q97548396 | Fibrinogen protects neutrophils from the cytotoxic effects of histones and delays neutrophil extracellular trap formation induced by ionomycin |
| Q46245613 | Heme Drives Oxidative Stress-Associated Cell Death in Human Neutrophils Infected with Leishmania infantum |
| Q40850228 | Human Neutrophils Use Different Mechanisms To Kill Aspergillus fumigatus Conidia and Hyphae: Evidence from Phagocyte Defects. |
| Q52663233 | Identification and structural characterization of a novel myeloperoxidase inhibitor from Staphylococcus delphini. |
| Q42030457 | In the beginning and at the end: calreticulin |
| Q46264023 | Independent trafficking of flavocytochrome b558 and myeloperoxidase to phagosomes during phagocytosis visualised by energy-filtering and energy-dispersive spectroscopy-scanning transmission electron microscopy. |
| Q36655302 | Lung Neutrophilia in Myeloperoxidase Deficient Mice during the Course of Acute Pulmonary Inflammation |
| Q55311833 | Midday and nadir salivary cortisol appear superior to cortisol awakening response in burnout assessment and monitoring. |
| Q55426892 | Myeloperoxidase as an Active Disease Biomarker: Recent Biochemical and Pathological Perspectives. |
| Q46465557 | Myeloperoxidase deficiency enhances zymosan phagocytosis associated with up-regulation of surface expression of CD11b in mouse neutrophils |
| Q41580008 | Myeloperoxidase is not a good biomarker for preeclampsia prediction. |
| Q40484025 | Myeloperoxidase-responsive materials for infection detection based on immobilized aminomethoxyphenol |
| Q40095197 | NADPH oxidase 2 inhibitor diphenyleneiodonium enhances ROS-independent bacterial phagocytosis in murine macrophages via activation of the calcium-mediated p38 MAPK signaling pathway |
| Q50346819 | NLRP12 Promotes Mouse Neutrophil Differentiation through Regulation of Non-canonical NF-κB and MAPKERK1/2 Signaling |
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| Q38648056 | Neutrophil proteolytic activation cascades: a possible mechanistic link between chronic periodontitis and coronary heart disease |
| Q93269885 | Neutrophil swarming delays the growth of clusters of pathogenic fungi |
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| Q33867129 | Opportunistic Pathogen Porphyromonas gingivalis Modulates Danger Signal ATP-Mediated Antibacterial NOX2 Pathways in Primary Epithelial Cells |
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| Q38822037 | Peptoanaerobacter stomatis Primes Human Neutrophils and Induces Granule Exocytosis |
| Q55257441 | Peroxidasin contributes to lung host defense by direct binding and killing of gram-negative bacteria. |
| Q39425000 | Phagocytosis: A Fundamental Process in Immunity. |
| Q91854944 | Pharmacological myeloperoxidase (MPO) inhibition in an obese/hypertensive mouse model attenuates obesity and liver damage, but not cardiac remodeling |
| Q34538596 | Potential Implications for Designing Drugs Against the Brown Spider Venom Phospholipase-D. |
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| Q40814087 | Sputum neutrophils are elevated in smelter workers, and systemic neutrophils are associated with rapid decline in FEV1. |
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| Q52663182 | Synthetic secoisolariciresinol diglucoside (LGM2605) inhibits myeloperoxidase activity in inflammatory cells. |
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