Ca2+/calmodulin-dependent formation of hydrogen peroxide by brain nitric oxide synthase
about
Nitric oxide synthases in mammalsNitric oxide and pH modulation in gynaecological cancerModulation of cellular redox homeostasis by the endocannabinoid systemReactive Oxygen Species: Physiological and Physiopathological Effects on Synaptic PlasticityNitric oxide synthases: structure, function and inhibitionEnhancement of nitric oxide production by methylecgonidine in cultured neonatal rat cardiomyocytesInhibition of neuronal nitric oxide synthase by 6-nitrocatecholamines, putative reaction products of nitric oxide with catecholamines under oxidative stress conditionsCharacterization of bovine endothelial nitric oxide synthase as a homodimer with down-regulated uncoupled NADPH oxidase activity: tetrahydrobiopterin binding kinetics and role of haem in dimerizationOxidation of tetrahydrobiopterin leads to uncoupling of endothelial cell nitric oxide synthase in hypertensionCharacterization of a nitric oxide synthase from the plant kingdom: NO generation from the green alga Ostreococcus tauri is light irradiance and growth phase dependent.Effects of hypercapnia on peripheral vascular reactivity in elderly patients with acute exacerbation of chronic obstructive pulmonary diseaseH2O2-induced endothelial NO production contributes to vascular cell apoptosis and increased permeability in rat venulesAtheroprotective effects of neuronal nitric oxide synthase in apolipoprotein e knockout mice.Regulation of NADPH-dependent Nitric Oxide and reactive oxygen species signalling in endothelial and melanoma cells by a photoactive NADPH analogue.Tetrahydrobiopterin restores endothelial function of coronary arteries in patients with hypercholesterolaemia.Characteristics and function of cardiac mitochondrial nitric oxide synthase.Nitric Oxide and Related Aspects Underlying Angina.Atherosclerosis: A Link Between Lipid Intake and Protein Tyrosine NitrationEffect of redox-active drugs on superoxide generation from nitric oxide synthases: biological and toxicological implications.Dose dependent effects of reactive oxygen and nitrogen species on the function of neuronal nitric oxide synthase.Reactive oxygen and nitrogen species regulate inducible nitric oxide synthase function shifting the balance of nitric oxide and superoxide production.Endothelial dihydrofolate reductase: critical for nitric oxide bioavailability and role in angiotensin II uncoupling of endothelial nitric oxide synthaseVascular oxidant stress: molecular mechanisms and pathophysiological implications.Comparison of oxygen-induced radical intermediates in iNOS oxygenase domain with those from nNOS and eNOS.Oxygen reduction by nitric-oxide synthases.Nitric oxide and nitric oxide synthase in Huntington's disease.Dysregulated arginine metabolism, hemolysis-associated pulmonary hypertension, and mortality in sickle cell diseaseNew strategies for the treatment of pulmonary hypertension in sickle cell disease : the rationale for arginine therapy.Oxygen species in the microvascular environment: regulation of vascular tone and the development of hypertension.Glycoxidative stress and cardiovascular complications in experimentally-induced diabetes: effects of antioxidant treatmentSex differences in endothelial function in porcine coronary arteries: a role for H2O2 and gap junctions?Erythropoietin prevents endothelial dysfunction in GTP-cyclohydrolase I-deficient hph1 miceThe effect of extracellular pH changes on intracellular pH and nitric oxide concentration in endothelial and smooth muscle cells from rat aorta.Co-induction of nitric oxide synthase and cyclo-oxygenase: interactions between nitric oxide and prostanoids.Reactive oxygen species in the regulation of synaptic plasticity and memory.Role of reactive oxygen species in hippocampal long-term potentiation: contributory or inhibitory?Vasculopathy in sickle cell disease: Biology, pathophysiology, genetics, translational medicine, and new research directionsSynaptic plasticity deficits and mild memory impairments in mouse models of chronic granulomatous disease.Vascular Protection Following Cerebral Ischemia and Reperfusion.Nitric oxide and arginine dysregulation: a novel pathway to pulmonary hypertension in hemolytic disorders
P2860
Q24528695-DB06D81E-AE98-4718-8B88-ED23A8A53672Q26741063-4743EBEA-F1AE-4E72-9DE7-2DAE143B2A16Q26744211-6ACA0D3E-4C03-4F65-B890-E053832087F6Q28070007-4EDF85C0-28A6-45E4-B045-26EDB42C0D66Q28207668-15DE0605-1C7B-423E-A51E-D3A16325FF37Q28344882-2F3A2D31-C9D1-42BE-8BB5-99D568E6D1CCQ28364247-FDDC4DD1-7350-4086-B7C6-C2DBF9162081Q28609898-3718F25F-EE88-4D22-99AF-499FE7DF4A5BQ30080036-4A942738-9A2A-4C15-BA85-2ABFA8280ADFQ30396833-5C33395D-AA9D-4049-B966-612AB6417CF0Q30437135-1441EACA-4115-4DF2-8DB3-79AE1AF2B861Q30532163-34C15629-2059-4D2D-9372-2AB7823BF887Q30558251-812C28BA-F826-40FF-B467-B07FBDBD488AQ30612023-E91E37B2-BBC4-456C-ACA6-7F25F2BD2691Q30813656-C77712F6-92D7-4FA1-8088-55DDF2648EBFQ33395207-80DFB927-4AB4-4B47-BF92-1E0A36EF2765Q33641341-4C5FCC35-3608-4E67-A4C9-041A2168D232Q33649712-43D008AE-3772-4AB0-ADEB-3C5858D3605EQ33814368-1B17472A-9AB3-474A-9295-C82391BDE908Q33815495-EF35C48B-4895-4444-A143-1122FDBD1E78Q33815525-EEC682D4-7448-400F-8939-53E7A66A347BQ33863119-CEDD4BF7-D9E6-4D92-9335-05164ED28131Q33957964-4738387F-D479-4FF4-A958-B96C21BAADF2Q34046054-3EAF4918-54FA-4111-B704-4E6106B1CE2DQ34201782-2DE6E53D-98E6-4BAB-9B4B-985A8B92CF86Q34208531-45BBD5BF-6546-44D1-B31A-3DB85A710486Q34431518-1C1118D1-9AEB-4164-A65C-8222CE5A11A2Q34484036-30DC0792-EEC7-4FD2-BD38-C520F6E1AC32Q34506899-8F3C46DA-AE08-45AE-B05F-F73C5272F63EQ34517974-DDE589DC-17EA-4453-AC6E-16CE209AAAFEQ34570759-1A657EDF-2719-4435-9C0F-608A29CEAFF7Q34668310-DE9990DC-201A-4B3B-BA4A-9D49A6281EC8Q34729941-643AED27-6E0E-4210-A6F1-B735FD6AA009Q34792988-5AFBFADF-B10A-4A34-8459-5F64537417BDQ34805998-74FEEEB9-14F8-4FAA-A7DA-B6D79C11C034Q34867673-F1BF4300-4487-4C6E-B54E-43CF7548B68CQ34992760-B52993DA-1404-434D-8053-4093D354EF94Q35070983-83E96BAD-687D-485C-8171-31AE1CB3DCB4Q35551681-0B6166EE-2B26-4EAA-9DE5-468B1A8A53B9Q35590733-6F688665-DFDD-498F-88B0-98CD974BAC5D
P2860
Ca2+/calmodulin-dependent formation of hydrogen peroxide by brain nitric oxide synthase
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
Ca2+/calmodulin-dependent formation of hydrogen peroxide by brain nitric oxide synthase
@en
Ca2+/calmodulin-dependent formation of hydrogen peroxide by brain nitric oxide synthase
@nl
type
label
Ca2+/calmodulin-dependent formation of hydrogen peroxide by brain nitric oxide synthase
@en
Ca2+/calmodulin-dependent formation of hydrogen peroxide by brain nitric oxide synthase
@nl
prefLabel
Ca2+/calmodulin-dependent formation of hydrogen peroxide by brain nitric oxide synthase
@en
Ca2+/calmodulin-dependent formation of hydrogen peroxide by brain nitric oxide synthase
@nl
P2093
P2860
P356
P1433
P1476
Ca2+/calmodulin-dependent formation of hydrogen peroxide by brain nitric oxide synthase
@en
P2093
P2860
P304
P356
10.1042/BJ2810627
P407
P478
281 ( Pt 3)
P577
1992-02-01T00:00:00Z