| scholarly article | Q13442814 |
| P356 | DOI | 10.1038/NM1771 |
| P2888 | exact match | https://scigraph.springernature.com/pub.10.1038/nm1771 |
| P932 | PMC publication ID | 2700065 |
| P698 | PubMed publication ID | 18516054 |
| P5875 | ResearchGate publication ID | 5331364 |
| P50 | author | Namasivayam Ambalavanan | Q38327704 |
| Rakesh P. Patel | Q42121105 | ||
| Matthew B. Renfrow | Q55080353 | ||
| Dario A Vitturi | Q58200166 | ||
| P2093 | author name string | T Scott Isbell | |
| Xinjun Teng | |||
| Christopher G Kevil | |||
| J Michael Wyss | |||
| Tim M Townes | |||
| Kevin M Pawlik | |||
| Lisa Schwiebert | |||
| Chiao-Wang Sun | |||
| Li-Chen Wu | |||
| Ning Peng | |||
| Billy G Branch | |||
| Jinxiang Ren | |||
| P2860 | cites work | Nitrite as a vascular endocrine nitric oxide reservoir that contributes to hypoxic signaling, cytoprotection, and vasodilation | Q36518520 |
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| Transduction of NO-bioactivity by the red blood cell in sepsis: novel mechanisms of vasodilation during acute inflammatory disease | Q44568254 | ||
| Vasorelaxation by red blood cells and impairment in diabetes: reduced nitric oxide and oxygen delivery by glycated hemoglobin | Q44764243 | ||
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| S-nitrosothiols signal hypoxia-mimetic vascular pathology | Q24675222 | ||
| Essential roles of S-nitrosothiols in vascular homeostasis and endotoxic shock | Q28246441 | ||
| Exercising skeletal muscle blood flow in humans responds to reduction in arterial oxyhaemoglobin, but not to altered free oxygen | Q28351698 | ||
| Hemoglobin conformation couples erythrocyte S-nitrosothiol content to O2 gradients | Q30436525 | ||
| Inhaled NO accelerates restoration of liver function in adults following orthotopic liver transplantation | Q30479924 | ||
| Export by red blood cells of nitric oxide bioactivity | Q32050891 | ||
| Impaired vasodilation by red blood cells in sickle cell disease | Q33850500 | ||
| The red blood cell as an oxygen sensor: what is the evidence? | Q33888508 | ||
| Enzymatic function of hemoglobin as a nitrite reductase that produces NO under allosteric control | Q33901706 | ||
| Evolution of adverse changes in stored RBCs | Q34007600 | ||
| S-nitrosohemoglobin deficiency: a mechanism for loss of physiological activity in banked blood | Q34007606 | ||
| A nitric oxide processing defect of red blood cells created by hypoxia: deficiency of S-nitrosohemoglobin in pulmonary hypertension | Q34078525 | ||
| Nitric oxide's reactions with hemoglobin: a view through the SNO-storm | Q35118745 | ||
| Differential angiogenic regulation of experimental colitis. | Q35569803 | ||
| Hypoxia, red blood cells, and nitrite regulate NO-dependent hypoxic vasodilation | Q35849284 | ||
| The red blood cell and vascular function in health and disease. | Q35952902 | ||
| Chemical physiology of blood flow regulation by red blood cells: the role of nitric oxide and S-nitrosohemoglobin | Q36040992 | ||
| P433 | issue | 7 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | hypoxia | Q105688 |
| P304 | page(s) | 773-777 | |
| P577 | publication date | 2008-05-30 | |
| P1433 | published in | Nature Medicine | Q1633234 |
| P1476 | title | SNO-hemoglobin is not essential for red blood cell-dependent hypoxic vasodilation | |
| P478 | volume | 14 |
| Q41087036 | A Conspectus of Cellular Mechanisms of Nitrosothiol Formation from Nitric Oxide |
| Q52596367 | A Triazole Disulfide Compound Increases the Affinity of Hemoglobin for Oxygen and Reduces the Sickling of Human Sickle Cells. |
| Q34213094 | Anaerobic storage of red blood cells |
| Q37289767 | Antioxidant functions for the hemoglobin β93 cysteine residue in erythrocytes and in the vascular compartment in vivo |
| Q41115126 | Can erythrocytes release biologically active NO? |
| Q50224140 | Cardioprotective role of S-nitrosylated hemoglobin from rbc. |
| Q60609999 | Cardiovascular Adaptations to Anemia and the Vascular Endothelium in Sickle Cell Disease Pathophysiology |
| Q38121347 | Chemical foundations of hydrogen sulfide biology |
| Q34078834 | Crosstalk between nitrite, myoglobin and reactive oxygen species to regulate vasodilation under hypoxia |
| Q36074364 | Deformability of transfused red blood cells is a potent determinant of transfusion-induced change in recipient's blood flow |
| Q33522876 | Dipyridamole enhances ischaemia-induced arteriogenesis through an endocrine nitrite/nitric oxide-dependent pathway |
| Q24655038 | Dissection of a hypoxia-induced, nitric oxide-mediated signaling cascade |
| Q37272562 | Effect of storage levels of nitric oxide derivatives in blood components. |
| Q37867951 | Effects of storage of red cells |
| Q34426194 | Erythrocyte-dependent regulation of human skeletal muscle blood flow: role of varied oxyhemoglobin and exercise on nitrite, S-nitrosohemoglobin, and ATP. |
| Q42361627 | Erythrocytes do not activate purified and platelet soluble guanylate cyclases even in conditions favourable for NO synthesis |
| Q30398265 | Essential role of hemoglobin beta-93-cysteine in posthypoxia facilitation of breathing in conscious mice |
| Q36801673 | HBOC vasoactivity: interplay between nitric oxide scavenging and capacity to generate bioactive nitric oxide species |
| Q33962451 | Haemoglobin-based oxygen carriers: research and reality towards an alternative to blood transfusions |
| Q37452199 | Hemoglobin S-nitrosylation plays an essential role in cardioprotection |
| Q36969792 | Hemoglobin research and the origins of molecular medicine. |
| Q30371614 | Hemoglobin α in the blood vessel wall |
| Q35644835 | Hemoglobin βCys93 is essential for cardiovascular function and integrated response to hypoxia |
| Q37603613 | Hemoglobin, nitric oxide and molecular mechanisms of hypoxic vasodilation |
| Q27022432 | Hemoglobin-mediated nitric oxide signaling |
| Q22306368 | Hypoxic Vasodilation by Red Blood Cells: Evidence for an S-Nitrosothiol-Based Signal |
| Q37195014 | In vivo cardioprotection by S-nitroso-2-mercaptopropionyl glycine |
| Q37986170 | Inhaled nitric oxide and neonatal brain damage: experimental and clinical evidences |
| Q61450709 | Microcirculation dysfunction in endotoxic shock rabbits is associated with impaired S-nitrosohemoglobin-mediated nitric oxide release from red blood cells: a preliminary study |
| Q38786076 | Modulation of Local and Systemic Heterocellular Communication by Mechanical Forces: A Role of Endothelial Nitric Oxide Synthase. |
| Q26862163 | Natural history of the bruise: formation, elimination, and biological effects of oxidized hemoglobin |
| Q34170950 | Neurovascular coupling in rat brain operates independent of hemoglobin deoxygenation |
| Q38017819 | Nitric oxide formation versus scavenging: the red blood cell balancing act. |
| Q93104371 | Nitric oxide loading reduces sickle red cell adhesion and vaso-occlusion in vivo |
| Q37490715 | Nitric oxide production pathways in erythrocytes and plasma. |
| Q36717720 | Nitric oxide signaling in the microcirculation |
| Q49501122 | Nitric oxide signalling in cardiovascular health and disease. |
| Q38112049 | Nitric oxide transport in blood: a third gas in the respiratory cycle |
| Q38211238 | Nitric oxide, vasodilation and the red blood cell. |
| Q37887771 | Nitric oxide: a guardian for vascular grafts? |
| Q50080407 | Nitrite potentiates the vasodilatory signaling of S-nitrosothiols. |
| Q47565642 | Nitrite-Mediated Hypoxic Vasodilation Predicted from Mathematical Modeling and Quantified from in Vivo Studies in Rat Mesentery |
| Q37346719 | Novel small molecule therapeutics for sickle cell disease: nitric oxide, carbon monoxide, nitrite, and apolipoprotein A-I. |
| Q34060377 | Oxygen and nitric oxide rebinding kinetics in nonsymbiotic hemoglobin AHb1 from Arabidopsis thaliana |
| Q43187586 | Oxygen-induced regulation of the intracellular glutathione levels in erythrocytes |
| Q34981718 | Peroxiredoxin-2 recycling is inhibited during erythrocyte storage |
| Q35531066 | Protective Role of Nuclear Factor E2-Related Factor 2 against Acute Oxidative Stress-Induced Pancreatic β -Cell Damage. |
| Q30275352 | Red Blood Cell Function and Dysfunction: Redox Regulation, Nitric Oxide Metabolism, Anemia |
| Q34907759 | Red blood cell age and potentiation of transfusion-related pathology in trauma patients. |
| Q38271912 | Red blood cell storage lesion |
| Q61808576 | Red blood cell storage lesion: causes and potential clinical consequences |
| Q33775661 | Red blood cell storage: the story so far. |
| Q35644708 | Regulation of oxygen delivery to the body via hypoxic vasodilation |
| Q43202826 | Relative roles of heme-irons and globin-thiols in the genesis of acellular hemoglobin mediated vasoconstriction |
| Q90569411 | Role of Nitric Oxide Carried by Hemoglobin in Cardiovascular Physiology: Developments on a Three-Gas Respiratory Cycle |
| Q42559990 | Role of hemoglobin oxygenation in the modulation of red blood cell mechanical properties by nitric oxide |
| Q43050724 | Role of the b93cys, ATP and adenosine in red cell dependent hypoxic vasorelaxation |
| Q37967558 | Routes for formation of S-nitrosothiols in blood |
| Q37010539 | S-nitrosylation therapy to improve oxygen delivery of banked blood |
| Q57450317 | SNO-hemoglobin and hypoxic vasodilation |
| Q82233998 | SNO-hemoglobin and hypoxic vasodilation |
| Q27339785 | Sepsis impairs microvascular autoregulation and delays capillary response within hypoxic capillaries. |
| Q58075704 | Sources of Vascular Nitric Oxide and Reactive Oxygen Species and Their Regulation |
| Q41660779 | The Effect of Sepsis on the Erythrocyte |
| Q34530211 | The detection of the nitrite reductase and NO-generating properties of haemoglobin by mitochondrial inhibition |
| Q34791443 | The functional nitrite reductase activity of the heme-globins |
| Q38238643 | The red blood cell: a new key player in cardiovascular homoeostasis? Focus on the nitric oxide pathway |
| Q42547614 | Transnitrosation signals oxyhemoglobin desaturation |
| Q34029776 | Vascular effects of the red blood cell storage lesion |
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