scholarly article | Q13442814 |
review article | Q7318358 |
P2093 | author name string | Oliver Nüsse | |
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Cryptococcus neoformans resides in an acidic phagolysosome of human macrophages | Q28295002 | ||
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SHIP-1 increases early oxidative burst and regulates phagosome maturation in macrophages | Q30495822 | ||
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A potential new pathway for Staphylococcus aureus dissemination: the silent survival of S. aureus phagocytosed by human monocyte-derived macrophages | Q33313866 | ||
Cytosolic free calcium elevation mediates the phagosome-lysosome fusion during phagocytosis in human neutrophils | Q33755260 | ||
CFTR-mediated halide transport in phagosomes of human neutrophils | Q33806624 | ||
Neutrophil bleaching of GFP-expressing staphylococci: probing the intraphagosomal fate of individual bacteria | Q33895971 | ||
Neutrophil granulocytes--Trojan horses for Leishmania major and other intracellular microbes? | Q34202144 | ||
Visualization of vacuolar acidification-induced transcription of genes of pathogens inside macrophages | Q34298435 | ||
Listeria monocytogenes exploits cystic fibrosis transmembrane conductance regulator (CFTR) to escape the phagosome. | Q34533687 | ||
Fibronectin-binding protein acts as Staphylococcus aureus invasin via fibronectin bridging to integrin alpha5beta1. | Q40826567 | ||
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Large-conductance calcium-activated potassium channel activity is absent in human and mouse neutrophils and is not required for innate immunity | Q41449841 | ||
Intraphagosomal measurement of the magnitude and duration of the oxidative burst. | Q42138826 | ||
Salmonella pathogenicity island 2-encoded type III secretion system mediates exclusion of NADPH oxidase assembly from the phagosomal membrane. | Q43582908 | ||
Electrophysiology of the phagocyte respiratory burst. Focus on "Large-conductance calcium-activated potassium channel activity is absent in human and mouse neutrophils and is not required for innate immunity". | Q43767114 | ||
Phagosomal oxidative activity during beta2 integrin (CR3)-mediated phagocytosis by neutrophils is triggered by a non-restricted Ca2+ signal: Ca2+ controls time not space | Q44456498 | ||
Dual role of phagocytic NADPH oxidase in bacterial killing. | Q44976803 | ||
Role of magnesium and a phagosomal P-type ATPase in intracellular bacterial killing | Q44984907 | ||
The kinetics of phagosome maturation as a function of phagosome/lysosome fusion and acquisition of hydrolytic activity | Q46424909 | ||
Green fluorescent protein-expressing Escherichia coli as a selective probe for HOCl generation within neutrophils | Q46467631 | ||
FcepsilonRI- and Fcgamma receptor-mediated production of reactive oxygen species by mast cells is lipoxygenase- and cyclooxygenase-dependent and NADPH oxidase-independent | Q46915105 | ||
Initial cytoplasmic and phagosomal consequences of human neutrophil exposure to Staphylococcus epidermidis. | Q50449299 | ||
Kinetic analysis of phagosomal production of reactive oxygen species. | Q50553746 | ||
The calcium signal in human neutrophils and its relation to exocytosis investigated by patch-clamp capacitance and Fura-2 measurements. | Q53022860 | ||
Mechanism and consequences of invasion of endothelial cells by Staphylococcus aureus. | Q53846568 | ||
Measurement of superoxide release in the phagovacuoles of immune complex-stimulated human neutrophils | Q57636467 | ||
NOX2 Controls Phagosomal pH to Regulate Antigen Processing during Crosspresentation by Dendritic Cells | Q58007061 | ||
The respiratory burst of phagocytic cells is associated with a rise in vacuolar pH | Q59058196 | ||
Kinetics of oxygen consumption by phagocytosing human neutrophils | Q59512561 | ||
Macrophage Activation Downregulates the Degradative Capacity of the Phagosome | Q60343821 | ||
Selective Inhibition of IgG-Mediated Phagocytosis in Gelsolin-Deficient Murine Neutrophils | Q62622980 | ||
Isoluminol-enhanced chemiluminescence: a sensitive method to study the release of superoxide anion from human neutrophils | Q71316095 | ||
Kinetics and mechanism of the bactericidal action of human neutrophils against Escherichia coli | Q72388731 | ||
Differences in the ingestion mechanisms of IgG and C3b particles in phagocytosis by neutrophils | Q72926323 | ||
Survival of Staphylococcus aureus inside neutrophils contributes to infection | Q73567327 | ||
A cytosolic calcium transient is not necessary for degranulation or oxidative burst in immune complex-stimulated neutrophils | Q73721655 | ||
Dichlorodihydrofluorescein and dihydrorhodamine 123 are sensitive indicators of peroxynitrite in vitro: implications for intracellular measurement of reactive nitrogen and oxygen species | Q77077439 | ||
Modeling the reactions of superoxide and myeloperoxidase in the neutrophil phagosome: implications for microbial killing | Q79317154 | ||
Potent inhibition of store-operated Ca2+ influx and superoxide production in HL60 cells and polymorphonuclear neutrophils by the pyrazole derivative BTP2 | Q79685256 | ||
Genetically encoded fluorescent indicator for intracellular hydrogen peroxide | Q82918322 | ||
An essential role of STIM1, Orai1, and S100A8-A9 proteins for Ca2+ signaling and FcγR-mediated phagosomal oxidative activity | Q83217112 | ||
Real-time imaging of the intracellular glutathione redox potential. | Q34777807 | ||
Leishmania disease development depends on the presence of apoptotic promastigotes in the virulent inoculum | Q35025132 | ||
Intracellular fate of Mycobacterium avium: use of dual-label spectrofluorometry to investigate the influence of bacterial viability and opsonization on phagosomal pH and phagosome-lysosome interaction | Q35464509 | ||
Mechanisms of mycobacterial persistence in tuberculosis | Q36049307 | ||
Quantitative fluorescence microscopy to probe intracellular microenvironments | Q36153806 | ||
Modulation of cytosolic-free calcium transients by changes in intracellular calcium-buffering capacity: correlation with exocytosis and O2-production in human neutrophils | Q36210962 | ||
The antibacterial activity of human neutrophils and eosinophils requires proton channels but not BK channels | Q36295750 | ||
Modulation of phosphoinositide metabolism by pathogenic bacteria. | Q36580737 | ||
Spectral imaging: principles and applications. | Q36592308 | ||
Pathogen destruction versus intracellular survival: the role of lipids as phagosomal fate determinants | Q36677618 | ||
Apoptosis driven infection. | Q36827955 | ||
Fluorescent and luminescent probes for measurement of oxidative and nitrosative species in cells and tissues: progress, pitfalls, and prospects | Q36924580 | ||
To activate or not to activate: distinct strategies used by Helicobacter pylori and Francisella tularensis to modulate the NADPH oxidase and survive in human neutrophils. | Q36938615 | ||
Manipulation of host-cell pathways by bacterial pathogens | Q36974212 | ||
Cdc42, Rac1, and Rac2 display distinct patterns of activation during phagocytosis. | Q37031442 | ||
Genetics and immunopathology of chronic granulomatous disease | Q37176109 | ||
The macrophage marches on its phagosome: dynamic assays of phagosome function. | Q37419579 | ||
Staphylococcus aureus host cell invasion and post-invasion events | Q37603608 | ||
Fluorescent protein-based redox probes | Q37678406 | ||
Nanoparticle PEBBLE sensors in live cells and in vivo | Q37680696 | ||
2',7'-Dichlorodihydrofluorescein as a fluorescent probe for reactive oxygen species measurement: Forty years of application and controversy | Q37724866 | ||
The role of calcium signaling in phagocytosis. | Q37733196 | ||
Imaging signal transduction during phagocytosis: phospholipids, surface charge, and electrostatic interactions | Q37782513 | ||
Spotting the right location- imaging approaches to resolve the intracellular localization of invasive pathogens. | Q37804500 | ||
Neutrophils, from marrow to microbes | Q37811342 | ||
Phagosome dynamics during phagocytosis by neutrophils | Q37866915 | ||
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 | ||
Stable accumulation of p67phox at the phagosomal membrane and ROS production within the phagosome | Q39466811 | ||
Cell death of human polymorphonuclear neutrophils induced by a Pseudomonas aeruginosa cystic fibrosis isolate requires a functional type III secretion system | Q39512990 | ||
Dynamic ca(2+)changes in neutrophil phagosomes A source for intracellular ca(2+)during phagolysosome formation? | Q39548633 | ||
Determinants of the phagosomal pH in neutrophils | Q39587801 | ||
Simultaneous intracellular chloride and pH measurements using a GFP-based sensor | Q39687776 | ||
Effective generation of reactive oxygen species in the mycobacterial phagosome requires K+ efflux from the bacterium | Q39724194 | ||
Differences in Oxygen Metabolism of Phagocytosing Monocytes and Neutrophils | Q40124000 | ||
Continuous Translocation of Rac2 and the NADPH Oxidase Component p67 during Phagocytosis | Q40615763 | ||
P275 | copyright license | Creative Commons Attribution 3.0 Unported | Q14947546 |
P6216 | copyright status | copyrighted | Q50423863 |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell | Q7868 |
biomedical investigative technique | Q66648976 | ||
P304 | page(s) | 2364-81 | |
P577 | publication date | 2011-01-01 | |
2011-12-04 | |||
P1433 | published in | The Scientific World Journal | Q7762585 |
P1476 | title | Biochemistry of the phagosome: the challenge to study a transient organelle | |
P478 | volume | 11 |
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Q40066205 | Dual transcriptome of the immediate neutrophil and Candida albicans interplay. |
Q92729468 | Effects of membrane lipid composition on Mycobacterium tuberculosis EsxA membrane insertion: A dual play of fluidity and charge |
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Q34469815 | Trace element landscape of resting and activated human neutrophils on the sub-micrometer level |
Q40975905 | Transcriptome analysis of Streptococcus gallolyticus subsp. gallolyticus in interaction with THP-1 macrophage-like cells |
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