Mitochondrial membrane potential in human neutrophils is maintained by complex III activity in the absence of supercomplex organisation
about
Genetic variability of respiratory complex abundance, organization and activity in mouse brainReactive oxygen species in unstimulated hemocytes of the pacific oyster Crassostrea gigas: a mitochondrial involvementMetabolic shifts in immunity and inflammation.Age-related decline in mitochondrial bioenergetics: does supercomplex destabilization determine lower oxidative capacity and higher superoxide production?Inflammation and immunity in the pathogenesis of pulmonary arterial hypertensionCoenzyme q and the respiratory chain: coenzyme q pool and mitochondrial supercomplexesSevere exercise and exercise training exert opposite effects on human neutrophil apoptosis via altering the redox statusDefective complex I assembly due to C20orf7 mutations as a new cause of Leigh syndrome.Dying for a cause: NETosis, mechanisms behind an antimicrobial cell death modalityReactive oxygen species originating from mitochondria regulate the cardiac sodium channel.OXPHOS supercomplexes as a hallmark of the mitochondrial phenotype of adipogenic differentiated human MSCsPatients with chronic fatigue syndrome performed worse than controls in a controlled repeated exercise study despite a normal oxidative phosphorylation capacity.Hypoxia and metabolic factors that influence inflammatory bowel disease pathogenesis.Pioglitazone restores phagocyte mitochondrial oxidants and bactericidal capacity in chronic granulomatous disease.Megakaryocytic differentiation of K562 cells induced by PMA reduced the activity of respiratory chain complex IVA novel model for studies of blood-mediated long-term responses to cellular transplantsPhospholipase D2 (PLD2) shortens the time required for myeloid leukemic cell differentiation: mechanism of actionRelevance of mitochondrial genetics and metabolism in cancer development.New tricks from an old dog: mitochondrial redox signaling in cellular inflammation.A review of the mitochondrial and glycolytic metabolism in human platelets and leukocytes: implications for their use as bioenergetic biomarkersHypoxia and Mucosal Inflammation.Metabolic Factors that Contribute to Lupus PathogenesisMitochondrial Dysfunction and Immune Cell Metabolism in Sepsis.New developments on the functions of coenzyme Q in mitochondria.Advances in the understanding of Barth syndrome.Metabolic pathways in immune cell activation and quiescence.Aluminium phosphide-induced leukopenia.Assessment of gold nanoparticles on human peripheral blood cells by metabolic profiling with 1H-NMR spectroscopy, a novel translational approach on a patient-specific basis.Neutrophil extracellular trap cell death requires both autophagy and superoxide generation.Complement C5a Functions as a Master Switch for the pH Balance in Neutrophils Exerting Fundamental Immunometabolic Effects.Gene networks in skeletal muscle following endurance exercise are coexpressed in blood neutrophils and linked with blood inflammation markers.Myeloid nuclear differentiation antigen, neutrophil apoptosis and sepsisHighly coordinated proteome dynamics during reprogramming of somatic cells to pluripotency.Energy metabolic pathways control the fate and function of myeloid immune cells.The cellular and molecular mechanisms for neutropenia in Barth syndrome.To Eat and to Be Eaten: Mutual Metabolic Adaptations of Immune Cells and Intracellular Bacterial Pathogens upon Infection.A Metabolic Shift toward Pentose Phosphate Pathway Is Necessary for Amyloid Fibril- and Phorbol 12-Myristate 13-Acetate-induced Neutrophil Extracellular Trap (NET) FormationMetabolic requirements for neutrophil extracellular traps formation.Subproteome analysis of the neutrophil cytoskeletonMitochondrial respiratory supercomplex association limits production of reactive oxygen species from complex I.
P2860
Q28397261-494B6FB6-8B72-4DDA-BD4B-CA8F1343E128Q28484208-8B4FA3B8-1E68-469C-B348-22F4BD70619CQ33829813-2A977769-35B4-4EFC-84F5-6D4C13CCBF4CQ33897468-E0F97C41-8889-4369-B650-0C914B92E469Q33898213-07B3F0B3-1D3F-4577-BC75-E9C71F6D2F67Q33956959-313C3DFA-5767-47FC-B4CF-58F15416642EQ34023481-F2015368-18E4-4D80-B82D-3AE8229F5E8BQ34064462-C2C2C3EF-05AC-4ECC-B0F3-A29B160B7C45Q34162570-E707FCCB-9D12-45D3-A079-877ABC90034AQ34204033-C89B66E6-6B78-47BD-9CE0-4E36B5AEFAC8Q34241772-434D361A-776F-42BC-BD27-1BA78F6FD6DFQ34243556-CA789B22-6BA4-4A1B-A0EF-79AA7CAE1219Q34977591-EC68ED27-9AD5-4F60-B32D-C2684C2ACF12Q35090974-53EF3265-3AFA-4702-8F29-0B7EF72BF83CQ35166636-0FA85DB2-21A2-439C-9E6E-7A72F4318127Q35308828-D7E55659-854B-4C2F-B3C7-B13D75453E7CQ35643701-F86F5DEF-4709-4C5F-8A49-DAB905536FF6Q36555188-10B9D8DE-5737-4522-9212-F4E3A682DFEBQ36834142-3D93920A-1DEF-4D9F-90C4-C4F43C2BA441Q37541024-C7C1A14E-D629-4364-8663-13120D19A756Q37550577-4CDFEF5A-87AE-4434-B2DD-E60212580486Q37612885-A6BD2EE8-7A02-43CC-AE98-E380576643C8Q37739000-1A3A245C-B9CE-4621-8AF5-78EC1B470343Q37944537-26AA30FD-22D5-4E9F-B3D8-D768D2C9F604Q38083725-12D0CAF4-FBA6-49A6-880A-A6193251E8C0Q38100361-50D0F2AE-DA22-4032-B9AF-243A6A9DE86BQ38156581-6BDD37B0-FCE1-4FC6-BF47-0159BECFAE19Q38632042-E813DB22-4972-454C-B469-DECA45D7ADDAQ38706817-0F6D18B4-45CF-47A7-B010-BA2A9A72DA08Q38793715-AAC76C9B-0B76-47DA-B1DD-CB03A2ACF45FQ39011229-C20415BF-E528-45B2-82EB-0E26678EDB76Q39215428-58F9FDA5-F913-45CF-BFF2-20F4ACD325C5Q39222337-09DBD497-A0C8-4CB9-B2CD-B863141A1FDDQ39313554-6B504546-09FD-4374-9F96-CE6230DE14AAQ39453643-ACBBDDD4-8FD8-46D3-9D31-2E6F9F385D4EQ40104707-84766EF3-D5C0-46FD-834A-B0F9E3AAEB29Q40710845-E5DDDC06-AF9B-4B1D-AB81-7F7CFD9796E8Q41578654-48225E21-C494-4884-8682-477632496DECQ41807397-237B3EA4-59DA-461B-8E93-F1662CD5E84DQ42678131-21D249DE-D763-4272-B1DE-7788F1359518
P2860
Mitochondrial membrane potential in human neutrophils is maintained by complex III activity in the absence of supercomplex organisation
description
2008 nî lūn-bûn
@nan
2008 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Mitochondrial membrane potenti ...... e of supercomplex organisation
@ast
Mitochondrial membrane potenti ...... e of supercomplex organisation
@en
Mitochondrial membrane potenti ...... of supercomplex organisation.
@nl
type
label
Mitochondrial membrane potenti ...... e of supercomplex organisation
@ast
Mitochondrial membrane potenti ...... e of supercomplex organisation
@en
Mitochondrial membrane potenti ...... of supercomplex organisation.
@nl
prefLabel
Mitochondrial membrane potenti ...... e of supercomplex organisation
@ast
Mitochondrial membrane potenti ...... e of supercomplex organisation
@en
Mitochondrial membrane potenti ...... of supercomplex organisation.
@nl
P2093
P2860
P1433
P1476
Mitochondrial membrane potenti ...... e of supercomplex organisation
@en
P2093
Arthur J Verhoeven
Elly de Wit
Wim Sluiter
P2860
P356
10.1371/JOURNAL.PONE.0002013
P407
P577
2008-04-23T00:00:00Z