Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation
about
Hypoxic Vasodilation by Red Blood Cells: Evidence for an S-Nitrosothiol-Based SignalInorganic nitrate: a major player in the cardiovascular health benefits of vegetables?Exercise and NO production: relevance and implications in the cardiopulmonary systemRed cell physiology and signaling relevant to the critical care settingHemoglobin-mediated nitric oxide signalingSepsis impairs microvascular autoregulation and delays capillary response within hypoxic capillaries.Hypoxia tolerance, nitric oxide, and nitrite: lessons from extreme animalsMechanisms of nitrite bioactivationMitigation of chlorine gas lung injury in rats by postexposure administration of sodium nitriteCurrent perspectives and challenges in understanding the role of nitrite as an integral player in nitric oxide biology and therapyPlatelet inhibition by nitrite is dependent on erythrocytes and deoxygenationImpact of mental and physical stress on blood pressure and pulse pressure under normobaric versus hypoxic conditions.Hypoxic adaptation during development: relation to pattern of neurological presentation and cognitive disability.Mechanisms of nitrite reduction to nitric oxide in the heart and vessel wall.An association between vasomotion and oxygen extractionNitrates and nitrites in the treatment of ischemic cardiac diseaseEvolution of adverse changes in stored RBCsNitric 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.The Reemergence of Nitrite as a Beneficial Agent in the Treatment of Ischemic Cardiovascular DiseasesRole of blood and vascular smooth muscle in the vasoactivity of nitriteErythrocyte-dependent regulation of human skeletal muscle blood flow: role of varied oxyhemoglobin and exercise on nitrite, S-nitrosohemoglobin, and ATP.A thermolabile aldolase A mutant causes fever-induced recurrent rhabdomyolysis without hemolytic anemia.Inorganic nitrite and chronic tissue ischaemia: a novel therapeutic modality for peripheral vascular diseases.The role of vascular myoglobin in nitrite-mediated blood vessel relaxationThe detection of the nitrite reductase and NO-generating properties of haemoglobin by mitochondrial inhibition.Preoperative anemia increases mortality and postoperative morbidity after cardiac surgery.RBC-NOS-dependent S-nitrosylation of cytoskeletal proteins improves RBC deformability.Oxygen mediates vascular smooth muscle relaxation in hypoxiaXuezhikang, extract of red yeast rice, improved abnormal hemorheology, suppressed caveolin-1 and increased eNOS expression in atherosclerotic ratsDietary nitrate accelerates postexercise muscle metabolic recovery and O2 delivery in hypoxia.The functional nitrite reductase activity of the heme-globins.Human neuroglobin functions as a redox-regulated nitrite reductase.Structural and functional studies indicating altered redox properties of hemoglobin E: implications for production of bioactive nitric oxideEnhancement of nitric oxide release from nitrosyl hemoglobin and nitrosyl myoglobin by red/near infrared radiation: potential role in cardioprotectionAutofluorescence of liver tissue and bile: organ functionality monitoring during ischemia and reoxygenation.Impact of hemoglobin nitrite to nitric oxide reductase on blood transfusion for resuscitation from hemorrhagic shockMetabolomics of ADSOL (AS-1) red blood cell storageThe capacity of red blood cells to reduce nitrite determines nitric oxide generation under hypoxic conditionsNitric oxide-donating statin improves multiple functions of circulating angiogenic cells.
P2860
Q22306368-6395B625-BAAF-45F7-9563-BA299DB8193FQ26997763-D7812B37-9848-4BC1-9673-00B439B2B495Q27012707-8F9FAC8B-F336-4C02-B8E2-BBE11EE27AD1Q27021803-D5824C80-0E57-4A92-9E0B-42548181E1F9Q27022432-EE6DF28B-6A1C-4AC4-80EB-95FEAA17A738Q27339785-6FDA5B2D-2BE6-4BBA-A7EB-BE7FA057CA38Q28082590-4DB5D98D-0A62-472F-8B25-0AEE38D789ADQ28384653-6EB435B4-CE94-43C5-94B7-12DF2DAB648BQ28387178-2B581B97-DB49-4B82-AAFB-5F7358EF2931Q28390815-4739F2E2-B94A-48D8-8247-1A017C6E9252Q28732676-B68B9B7E-80E1-45CB-B109-5DE7EE7CD1A7Q30438536-77D8FBFA-E2B1-484F-A139-200DB19F7071Q31043815-C2293285-5AB7-4CCE-942E-01DE573C9C3BQ33775475-6ECB3BF3-D7D4-4AFC-83B0-6292EAE33665Q33908060-C1C790FB-EBE5-43A7-A3A5-D4D35D94D090Q33910541-D7B75BCE-40EE-4331-AC3A-E8169B5D2C69Q34007600-0BAA234A-4299-4342-AE05-46F90282BD36Q34149600-CB181B65-3F77-41E5-AFAE-359B48C1DFFDQ34149630-44159A0C-3116-469F-A149-0738BD77B333Q34201601-E8D3579D-04AA-45D4-9F79-DA0D509A277DQ34295451-D51F26EB-BBBE-4F0E-94BA-386D78063860Q34426194-4B7E1153-EF83-4889-A244-4018731BA4C6Q34504736-193CE5A5-BD1F-442C-8F72-83AC4C9AC2FCQ34530182-3C886C31-C8F3-4686-8293-AB0567AE1237Q34530195-8F71A749-E580-4279-B5CB-570CB97FAF88Q34530211-DB8CB3D3-E6D3-43B7-ADED-963467DCEC86Q34544518-4148F71B-EDF5-4076-87B5-5F91720C4598Q34592919-4FB09B39-4AE7-42B2-A130-D73483A4F795Q34603164-2B0F8E9A-4509-4212-8C01-2944A1AFC3F7Q34722658-F23CACEF-AAF8-4546-A763-2C6D08D07BCFQ34726802-BC6B7A5E-F192-41A8-A410-39FA47DF7283Q34791443-914F28B2-322F-4669-A89A-A420CC00205EQ34979138-D28CD9AE-0C9F-4508-A564-7566B06E7340Q35067862-0E419E5F-FAF1-4EB7-AD75-48006AEC1505Q35085904-7B6D32A8-B368-4200-8818-56BD926B602BQ35118250-4E74A220-0AFD-46F7-8F11-110699371049Q35119905-F7CA49A4-ADC4-4544-998D-78A0986E6A8EQ35122576-BB95874B-1CA3-438A-85D6-A5719C514CA0Q35203857-F4D52520-B23C-4430-85C7-A21067FA8DCBQ35287252-EEE08CCF-7E3D-4033-9D61-7DB30ADA75B8
P2860
Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation
@ast
Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation
@en
type
label
Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation
@ast
Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation
@en
prefLabel
Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation
@ast
Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation
@en
P2093
P2860
P50
P1433
P1476
Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation
@en
P2093
Balu K Chacko
David Kraus
Jack H Crawford
Jeffrey D Kerby
John D Lang
Sruti Shiva
T Scott Isbell
Victor M Darley-Usmar
P2860
P304
P356
10.1182/BLOOD-2005-07-2668
P407
P577
2005-09-29T00:00:00Z