Erythrocyte consumption of nitric oxide: competition experiment and model analysis.
about
Hemoglobin-mediated nitric oxide signalingResearch opportunities in optimizing storage of red blood cell productsModulation of nitric oxide bioavailability by erythrocytes.Nitric oxide scavenging by red blood cell microparticles and cell-free hemoglobin as a mechanism for the red cell storage lesion.Nitric oxide reaction with red blood cells and hemoglobin under heterogeneous conditionsNitric oxide is consumed, rather than conserved, by reaction with oxyhemoglobin under physiological conditions.Interactions of multiple gas-transducing systems: hallmarks and uncertainties of CO, NO, and H2S gas biology.Nitric oxide and superoxide transport in a cross section of the rat outer medulla. I. Effects of low medullary oxygen tension.Nitric oxide and superoxide transport in a cross section of the rat outer medulla. II. Reciprocal interactions and tubulovascular cross talk.Computation of plasma hemoglobin nitric oxide scavenging in hemolytic anemias.Mechanisms of slower nitric oxide uptake by red blood cells and other hemoglobin-containing vesicles.Increase in Red Blood Cell-Nitric Oxide Synthase Dependent Nitric Oxide Production during Red Blood Cell Aging in Health and Disease: A Study on Age Dependent Changes of Rheologic and Enzymatic Properties in Red Blood Cells.Measurements of nitric oxide on the heme iron and beta-93 thiol of human hemoglobin during cycles of oxygenation and deoxygenation.Regulation of nitric oxide consumption by hypoxic red blood cellsAutoregulation and mechanotransduction control the arteriolar response to small changes in hematocrit.Nitric oxide diffusion rate is reduced in the aortic wall.Interactions of nitrosylhemoglobin and carboxyhemoglobin with erythrocyte.Erythrocyte storage increases rates of NO and nitrite scavenging: implications for transfusion-related toxicity.The potential of Angeli's salt to decrease nitric oxide scavenging by plasma hemoglobin.Nitrite reductase activity of hemoglobin as a systemic nitric oxide generator mechanism to detoxify plasma hemoglobin produced during hemolysisEffects of erythrocyte aging on nitric oxide and nitrite metabolismNitric oxide scavenging by red cell microparticles.Nitric oxide from nitrite reduction by hemoglobin in the plasma and erythrocytes.Hemorrhagic shock and nitric oxide release from erythrocytic nitric oxide synthase: a quantitative analysis.Nitric oxide production pathways in erythrocytes and plasma.Contribution of membrane permeability and unstirred layer diffusion to nitric oxide-red blood cell interaction.Mechanism of faster NO scavenging by older stored red blood cells.Nitric oxide red blood cell membrane permeability at high and low oxygen tension.A computational model for nitric oxide, nitrite and nitrate biotransport in the microcirculation: effect of reduced nitric oxide consumption by red blood cells and blood velocity.Determinants of basal nitric oxide concentration in the renal medullary microcirculation.Storage lesion: role of red blood cell breakdown.Extracellular diffusion and permeability effects on NO-RBCs interactions using an experimental and theoretical model.Enhanced human endothelial progenitor cell adhesion and differentiation by a bioinspired multifunctional nanomatrix.Reactions of deoxy-, oxy-, and methemoglobin with nitrogen monoxide. Mechanistic studies of the S-nitrosothiol formation under different mixing conditions.A theoretical model of nitric oxide transport in arterioles: frequency- vs. amplitude-dependent control of cGMP formation.Analysis of nitric oxide donor effectiveness in resistance vessels.Differential association of hemoglobin with proinflammatory high density lipoproteins in atherogenic/hyperlipidemic mice. A novel biomarker of atherosclerosis.Superoxide determines nitric oxide uptake rate by vascular smooth muscle cells.Encapsulation of hemoglobin inside liposomes surface conjugated with poly(ethylene glycol) attenuates their reactions with gaseous ligands and regulates nitric oxide dependent vasodilation.Estimation of nitric oxide concentration in blood for different rates of generation. Evidence that intravascular nitric oxide levels are too low to exert physiological effects.
P2860
Q27022432-9019F0C4-B2E8-44CB-894C-2CA282B6F242Q27023101-E6C9F8A4-86C9-462A-B1A2-BB4015ABDC0EQ33944916-A15B99B9-0F57-427A-87A9-D0B95363BCDCQ33957600-B652E607-29B3-43F0-BA35-44814774C3DAQ34065486-8CB94BFA-90E0-4F2C-9193-3871A9A56B2CQ34074356-3E25524E-D98E-487D-860E-6D93A99C0825Q34078151-A9176F71-13D7-436E-B161-59155341C356Q34149600-A751090F-132C-4552-9D94-E91A32BB7F5EQ34149630-E2272D5E-738E-4086-8D80-811AEE14C601Q35222193-CC2C66C1-D4C0-4F0D-9302-EA9A5791501BQ35311913-2C7F7A8A-AD2C-4A2C-803E-984AEDB474E6Q35526318-4A47B42B-A8A4-481D-9224-CF9EAF53C17FQ36160714-5C1C1FA0-C36B-45E0-BE4F-B427C98685A2Q36351003-40F72399-EDDE-4F6B-8642-8E96CABFD38BQ36454230-276FA441-CA74-4D4C-9DF3-23617727B066Q36459108-4E303361-D665-4FC2-9E1E-BE7E19E3795BQ36514549-6EBE22D4-3276-4ACA-94D1-F20702978C2AQ36610274-0372A0C7-0165-48AE-AAB3-2B439EF8CB07Q36648000-8681F587-F7AE-40C5-96D2-2A409E25DC76Q36844604-6F4A8951-75F7-4DAD-89B3-6A7745727BB9Q37204151-1843B3D3-A8CD-4F2C-B070-3009E42EB14EQ37384986-1EBAEC9D-A260-447A-A679-0C49C76E695DQ37399243-3F71878D-415B-465D-A357-721BC17C835AQ37434708-AACB75A5-5927-4C5E-B8D2-7A668353881EQ37490715-FD3652FD-A0E2-4C73-AC6F-3ED28729FE7EQ40256220-64691881-4633-408C-9F0F-8802B9971D55Q41905652-91CD27CB-6062-41D7-A092-3DB2EF327183Q42075022-19C198D4-00E9-4E77-B644-4E9C6F845BD6Q42188243-BF46BE6D-F5E8-4007-93AE-D67DF6215317Q42465410-3B556B46-DD1F-4810-A6D6-17C09EF4BBD6Q42720111-0DB10690-2C6E-44B0-B683-FEB94669B832Q42927723-5653606F-6C2E-4A2B-867C-DC25BE8D98CAQ43077176-EEED943C-FBCA-4F72-BC86-E6C0DF6D563EQ44240355-C1B16621-0CAA-4131-A42B-1B47E0238AA3Q44639135-1C292E30-3620-4966-ABF2-0A8184F2160DQ45155663-37DF15EB-9014-4902-8876-84094D5B6CCEQ46259342-DDA81081-AA39-4060-9B11-D237EE6AEF48Q46624072-67FFC25D-E934-487A-893C-9F86D8ABD849Q50513933-170B60F7-F85B-4108-9682-DFE919C689D1Q50706874-5FBCD948-242C-473F-BF94-BE348B23418C
P2860
Erythrocyte consumption of nitric oxide: competition experiment and model analysis.
description
2001 nî lūn-bûn
@nan
2001 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Erythrocyte consumption of nitric oxide: competition experiment and model analysis.
@ast
Erythrocyte consumption of nitric oxide: competition experiment and model analysis.
@en
type
label
Erythrocyte consumption of nitric oxide: competition experiment and model analysis.
@ast
Erythrocyte consumption of nitric oxide: competition experiment and model analysis.
@en
prefLabel
Erythrocyte consumption of nitric oxide: competition experiment and model analysis.
@ast
Erythrocyte consumption of nitric oxide: competition experiment and model analysis.
@en
P2093
P356
P1433
P1476
Erythrocyte consumption of nitric oxide: competition experiment and model analysis
@en
P2093
P356
10.1006/NIOX.2000.0328
P577
2001-02-01T00:00:00Z