Nitric oxide-dependent generation of reactive species in sickle cell disease. Actin tyrosine induces defective cytoskeletal polymerization.
about
Oxidative stress in β-thalassaemia and sickle cell diseaseMass spectrometry analysis of nitrotyrosine-containing proteinsWhen is mass spectrometry combined with affinity approaches essential? A case study of tyrosine nitration in proteins.Endothelin receptor antagonism prevents hypoxia-induced mortality and morbidity in a mouse model of sickle-cell disease.Nitric Oxide Modulates Postnatal Bone Marrow-Derived Mesenchymal Stem Cell MigrationProtein tyrosine nitration in the mitochondria from diabetic mouse heart. Implications to dysfunctional mitochondria in diabetes.Inactivation of rabbit muscle glycogen phosphorylase b by peroxynitrite revisited: does the nitration of Tyr613 in the allosteric inhibition site control enzymatic function?Atmospheric pressure room temperature plasma jets facilitate oxidative and nitrative stress and lead to endoplasmic reticulum stress dependent apoptosis in HepG2 cells.MALDI-induced Fragmentation of Leucine enkephalin, Nitro-Tyr Leucine Enkaphalin, and d(5)-Phe-Nitro-Tyr Leucine Enkephalin.Functional consequences of actin nitration: in vitro and in disease states.Non-nucleoside reverse transcriptase inhibitor efavirenz increases monolayer permeability of human coronary artery endothelial cells.Protein pattern of Xenopus laevis embryos grown in simulated microgravity.Cellular, pharmacological, and biophysical evaluation of explanted lungs from a patient with sickle cell disease and severe pulmonary arterial hypertensionCurcumin inhibits TNFalpha-induced lectin-like oxidised LDL receptor-1 (LOX-1) expression and suppresses the inflammatory response in human umbilical vein endothelial cells (HUVECs) by an antioxidant mechanism.Protein tyrosine nitration in cellular signal transduction pathways.Inducible and endothelial nitric synthetase expression and nitrotyrosine accumulation in iris vasculature of patients with primary open-angle glaucoma: a pilot studySUMOylation of nuclear actinVasculopathy and pulmonary hypertension in sickle cell disease.Nitric oxide metabolism in asthma pathophysiology.Proteomic analysis of age dependent nitration of rat cardiac proteins by solution isoelectric focusing coupled to nanoHPLC tandem mass spectrometry.Plasmodium vivax trophozoite-stage proteomesHemolysis in sickle cell mice causes pulmonary hypertension due to global impairment in nitric oxide bioavailabilityLactate dehydrogenase as a biomarker of hemolysis-associated nitric oxide resistance, priapism, leg ulceration, pulmonary hypertension, and death in patients with sickle cell disease.Bioanalytical profile of the L-arginine/nitric oxide pathway and its evaluation by capillary electrophoresis.Levels of soluble endothelium-derived adhesion molecules in patients with sickle cell disease are associated with pulmonary hypertension, organ dysfunction, and mortality.Subacute Hemolysis in Sickle Cell Mice Causes Priapism Secondary to NO Imbalance and PDE5 DysregulationRedox-dependent impairment of vascular function in sickle cell disease.Oxypurinol improves coronary and peripheral endothelial function in patients with coronary artery disease.Oxidative stress and inflammation in iron-overloaded patients with beta-thalassaemia or sickle cell disease.Cardiopulmonary complications of sickle cell disease: role of nitric oxide and hemolytic anemia.Sickle cell disease: role of reactive oxygen and nitrogen metabolites.Epithelial phenotype and the RPE: is the answer blowing in the Wnt?Proteomic analysis of protein tyrosine nitration after ischemia reperfusion injury: mitochondria as the major target.Sublethal photic stress and the motility of RPE phagosomes and melanosomesHuman stanniocalcin-1 blocks TNF-alpha-induced monolayer permeability in human coronary artery endothelial cells.Nitric oxide, oxidants, and protein tyrosine nitration.Tubulin tyrosine nitration regulates microtubule organization in plant cellsMYH9 and APOL1 are both associated with sickle cell disease nephropathyNuclear actin and myosins: life without filaments.Reactive oxygen and nitrogen species during viral infections.
P2860
Q26797178-4018D47E-6EC5-449C-BCD5-9F2512F88E04Q26825048-16F5C0EF-24E9-4204-B663-59490D65C05CQ30420482-2F1C58B2-9289-416B-9317-F5E5C283262FQ30481575-D1E63499-0CF4-4B56-935C-4718A488B55BQ30829700-7D70A205-625A-4304-87BE-E30216715C3DQ30951426-AFCF7055-E6CF-4AA2-B2BC-B96236D2E96CQ33400151-A8E71984-FDC5-4716-B022-95EA0F77C20FQ33459160-AE3D6B36-8DDC-43ED-A474-E904CB49740AQ33531716-440CC746-8EB8-4413-9870-55BD925A8C18Q33580310-BBEFA2EA-38B5-4B61-BB9A-A99608D332FAQ33618645-85CB55CC-946B-4BE6-8721-8EDB2990885CQ33718434-DAFF6395-1607-405C-9D6E-29465A1DE51FQ33806253-2E8C934B-7E10-49D6-A717-F5D2B9FB7117Q34616843-92234137-07DC-4856-B314-69EE9A6E5E4AQ34872656-0B53C8C6-6F60-4159-BC89-3959425DE43CQ34959821-D3703B10-57B1-458D-B5C1-8B3F177A9ACCQ34994385-086C0991-D094-4C64-921C-0B86B3BEC299Q35086394-BE0F9A8B-A543-4946-95D7-E7AF2B145741Q35435319-3DE85C7E-D8ED-4B9B-8338-725DE1F3F797Q35608301-2BD18791-403C-4899-A7BF-42FFB0A86465Q35620804-6EB6177A-674A-455D-AC28-3299106C66E1Q35750972-8AE30AF9-AB51-49DE-8838-D9864281AF5EQ35849493-5FA33B15-60E4-48EE-B4E8-6CCBAFAE60FAQ36088976-583C7DE0-7AB7-494B-B09C-4BEEF59AB7E7Q36120888-DC37E722-8088-42E7-8610-46184B8468F1Q36144285-51F3966C-3C63-475A-AF2E-917FBC2FF466Q36274222-9BBCBCB6-7D15-46CB-B8D0-55856584B324Q36319955-4C6157D6-224A-47C3-93D5-EF7F88D650F6Q36343351-53152794-A88C-413F-A6DC-3271F527B3DFQ36419650-AEF7F675-A640-4435-9953-18932CF0B40BQ36889232-2E1F27D9-753D-4946-849A-A066A257EF97Q36975594-44D6D473-BA0E-4E9F-978E-9BDA04AE3748Q37088682-065B1B0B-D23E-4917-A702-309FC5AF1D03Q37174502-CE9ED2F3-C8ED-43F9-8669-C78DBB1CB299Q37317968-FEDF286E-38B7-413F-A1FE-6DCCEA5781DBQ37356224-2C257D68-4A0C-46D3-92C7-69CDA01CDBE3Q37414034-32C39129-608D-412D-A6EB-5BE83B75FCD1Q37451162-687B438B-82E6-4DCB-9504-CBE7217C786DQ37952090-FB5E18CD-574F-43EA-952F-6EA3D978FE04Q38231321-4426AD95-1DF4-4684-B33B-C89673C6E26D
P2860
Nitric oxide-dependent generation of reactive species in sickle cell disease. Actin tyrosine induces defective cytoskeletal polymerization.
description
2002 nî lūn-bûn
@nan
2002 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Nitric oxide-dependent generat ...... e cytoskeletal polymerization.
@ast
Nitric oxide-dependent generat ...... e cytoskeletal polymerization.
@en
type
label
Nitric oxide-dependent generat ...... e cytoskeletal polymerization.
@ast
Nitric oxide-dependent generat ...... e cytoskeletal polymerization.
@en
prefLabel
Nitric oxide-dependent generat ...... e cytoskeletal polymerization.
@ast
Nitric oxide-dependent generat ...... e cytoskeletal polymerization.
@en
P2093
P2860
P356
P1476
Nitric oxide-dependent generat ...... e cytoskeletal polymerization.
@en
P2093
Bruce A Freeman
C Bruce Alexander
Lori Coward
Marion C Kirk
Mutay Aslan
Stephen Barnes
Steven S Rosenfeld
Thomas M Ryan
Tim M Townes
P2860
P304
P356
10.1074/JBC.M208916200
P407
P577
2002-10-24T00:00:00Z