Catalytic generation of N2O3 by the concerted nitrite reductase and anhydrase activity of hemoglobin. - Wikidata - wikimedia - TriplyDB

Catalytic generation of N2O3 by the concerted nitrite reductase and anhydrase activity of hemoglobin.

Catalytic generation of N2O3 by the concerted nitrite reductase and anhydrase activity of hemoglobin.

http://www.wikidata.org/entity/Q46914805

about

Myoglobin and mitochondria: a relationship bound by oxygen and nitric oxide The redox interplay between nitrite and nitric oxide: From the gut to the brain Extending the translational potential of targeting NO/cGMP-regulated pathways in the CVS Hemoglobin-mediated nitric oxide signaling The Distal Pocket Histidine Residue in Horse Heart Myoglobin Directs the O -Binding Mode of Nitrite to the Heme Iron Insertion of an H-bonding residue into the distal pocket of the ferriheme protein nitrophorin 4: effect on nitrite-iron coordination and nitrite disproportionation Mechanisms of nitrite bioactivation Current perspectives and challenges in understanding the role of nitrite as an integral player in nitric oxide biology and therapy A novel role for cytochrome c: Efficient catalysis of S-nitrosothiol formation Nitrite signaling in pulmonary hypertension: mechanisms of bioactivation, signaling, and therapeutics Nitrite activates AMP kinase to stimulate mitochondrial biogenesis independent of soluble guanylate cyclase Platelet inhibition by nitrite is dependent on erythrocytes and deoxygenation Nitric oxide: a brief overview of chemical and physical properties relevant to therapeutic applications Nitrophorins: nitrite disproportionation reaction and other novel functionalities of insect heme-based nitric oxide transport proteins.Reactions of nitrite in erythrocyte suspensions measured by membrane inlet mass spectrometry.Nitrate and nitrite in biology, nutrition and therapeutics NO reactions with sol-gel and solution phase samples of the ferric nitrite derivative of HbA Glass matrix-facilitated thermal reduction: a tool for probing reactions of met hemoglobin with nitrite and nitric oxide.Crosstalk between nitrite, myoglobin and reactive oxygen species to regulate vasodilation under hypoxia.Nitric oxide in the vasculature: where does it come from and where does it go? A quantitative perspective.Characterization of erythrocytic uptake and release and disposition pathways of nitrite, nitrate, methemoglobin, and iron-nitrosyl hemoglobin in the human circulation.Role of blood and vascular smooth muscle in the vasoactivity of nitrite Erythrocyte-dependent regulation of human skeletal muscle blood flow: role of varied oxyhemoglobin and exercise on nitrite, S-nitrosohemoglobin, and ATP.The role of vascular myoglobin in nitrite-mediated blood vessel relaxation The functional nitrite reductase activity of the heme-globins.Evaluating the capacity to generate and preserve nitric oxide bioactivity in highly purified earthworm erythrocruorin: a giant polymeric hemoglobin with potential blood substitute properties Mechanisms of human erythrocytic bioactivation of nitrite 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 oxide A new paramagnetic intermediate formed during the reaction of nitrite with deoxyhemoglobin.Thioredoxin 1-mediated post-translational modifications: reduction, transnitrosylation, denitrosylation, and related proteomics methodologies.The quaternary hemoglobin conformation regulates the formation of the nitrite-induced bioactive intermediate and the dissociation of nitric oxide from this intermediate Nitrite enhances RBC hypoxic ATP synthesis and the release of ATP into the vasculature: a new mechanism for nitrite-induced vasodilation.Regulation of oxygen delivery to the body via hypoxic vasodilation Convergence of biological nitration and nitrosation via symmetrical nitrous anhydride.EPR spectroscopy of nitrite complexes of methemoglobin.Role of aldehyde dehydrogenase in hypoxic vasodilator effects of nitrite in rats and humans Artery-to-vein differences in nitric oxide metabolites are diminished in sepsis.Low NO concentration dependence of reductive nitrosylation reaction of hemoglobin.S-Nitrosylation of cardiac ion channels.

P2860

Q26828919-309C2835-550A-4D7E-ABB7-11B1542633E6 Q26996490-E3EB27DE-EA50-422E-9BCB-6281E62F3B09 Q27021649-339FFDDB-55A2-424D-A981-0FEAB975A87E Q27022432-407572B4-5415-4D05-AB66-5DFAE4D5242A Q27658262-3938FF58-91D0-44C0-9D59-060E7CFAA559 Q27682248-0EEA3013-F31A-4A58-8A0E-8639D92E4751 Q28384653-C42E3968-BF75-497D-B4AF-4A6AF476EAAB Q28390815-DB9C2DBD-67D9-4666-81CD-B769EB2B9C49 Q28393464-F8E43816-8693-4F07-9661-51D7E0D15196 Q28396562-420620D0-EFF9-43CD-AB5A-8F7CE9C3319E Q28579907-70151C36-807C-4C20-A609-37BED5015AFF Q28732676-1AF76465-B9F2-4A70-BFE9-31E7D527B682 Q28817902-CA0235B7-A82A-40F0-8BA2-A0F95227CCAA Q30155585-AB1924F6-AA2B-4F62-99B4-029F4C884CD1 Q33638871-556D169D-E477-408E-A773-6C5FD9550F03 Q33685139-D8A6501C-9F62-4A35-98D0-4DC0C7140423 Q33709827-5CB66FE1-DC4B-4E40-9A5E-A9FDD547CC2D Q33806640-8D31F25A-DF4B-4CD6-9932-84AB25854DDE Q34078834-B1C85A4A-3C95-4388-B2FB-92D61390A6E9 Q34100176-CBEE5F43-FA12-4DBC-978B-750BF46470B5 Q34211119-D2BBF35B-1034-44B2-A1BB-0F1059DDFBE4 Q34295451-A051042E-7FDB-42FB-B4E2-1D102C7717E2 Q34426194-0B53E647-16B7-4A33-AA65-A52C9D8DF46B Q34530195-CCBA6619-0680-4791-8C9B-EFD2D52BD45D Q34791443-79F09F60-B2CC-4346-83FB-1EA0FE87A0EC Q34801805-65022A09-C056-437F-912B-2C4333B57EC8 Q34958622-A025029E-1571-41EE-9EBA-6EC349BE042F Q34979138-44C9289F-FB32-4622-9F2E-248758510A43 Q35067862-9DA34F4A-2C08-4F7C-8BC7-E92FECF9EC4B Q35195295-ABD8D1C3-FBCF-44E8-80D5-9CFD719BFC42 Q35222209-2A30260F-715D-477E-908F-482972E1AA4D Q35226618-1EED0DD8-68C9-43F7-AB4D-EA9603DBAD4C Q35547955-FBFF0BA1-3B40-45C9-8DB3-CBB34730E72A Q35644708-4933EA12-575F-4F6D-8614-CD0BB2B94758 Q35756214-0B832714-5A38-4270-9B18-93728CB5B8FA Q35841973-722495CE-9BF2-4C17-8097-12AF1660DC1E Q35846201-757BCC6A-9617-4458-B023-9FE69EE2337F Q35878275-8D99BEC2-7C00-40DC-BABF-5630CE92E1BC Q36002917-EA0777BA-54D9-42A7-8697-A7670FD18216 Q36079230-756EF08D-B5FA-4527-86C4-4A466FE017C4

P2860

Catalytic generation of N2O3 by the concerted nitrite reductase and anhydrase activity of hemoglobin.

http://www.wikidata.org/entity/Q46914805

description

2007 nî lūn-bûn

@nan

2007年の論文

@ja

2007年学术文章

@wuu

2007年学术文章

@zh

2007年学术文章

@zh-cn

2007年学术文章

@zh-hans

2007年学术文章

@zh-my

2007年学术文章

@zh-sg

2007年學術文章

@yue

2007年學術文章

@zh-hant

name

Catalytic generation of N2O3 b ...... ydrase activity of hemoglobin.

@en

Catalytic generation of N2O3 b ...... ydrase activity of hemoglobin.

@nl

type

label

Catalytic generation of N2O3 b ...... ydrase activity of hemoglobin.

@en

Catalytic generation of N2O3 b ...... ydrase activity of hemoglobin.

@nl

prefLabel

Catalytic generation of N2O3 b ...... ydrase activity of hemoglobin.

@en

Catalytic generation of N2O3 b ...... ydrase activity of hemoglobin.

@nl

P1433

Q46914805-07E19442-8BC3-4482-BAA6-8EEDBC8E7293

P1476

Q46914805-42972593-5EC5-42BF-8B3A-A6A5B2960ABA

P2093

Q46914805-001CC304-E03D-4D48-9BF0-AE4D901B3506

Q46914805-05E80290-B9FD-48C2-B5C5-3969A316C1E1

Q46914805-0F79D41C-170B-41E1-980D-09C6A87943E6

Q46914805-1CF19DE3-AE7C-47A5-BF3A-4740038679E2

Q46914805-3C884F43-A12F-4C0D-9704-FF19BF62F6E0

Q46914805-5DAA2425-C2A8-4090-85B5-D8CBC4DC89A7

Q46914805-6E11197A-166F-42DE-AC88-9AEE92F15BA9

Q46914805-7A8EAB64-FC58-4E0F-BC09-67371A4A3EA3

Q46914805-9C244E51-40AF-4CAA-AA6F-C10D197BF4BF

Q46914805-BBE49A83-33E4-4229-B7A6-E9D139037A0F

P2860

Q46914805-EA82C103-25B7-4FCC-B102-E88567ED9BA5

P2888

Q46914805-2D243A7C-50FC-412A-A1D6-7B207BD80E7F

P304

Q46914805-29F50D8D-AD34-4548-B93D-F683EEB5FCFE

P31

Q46914805-D1E5B539-13CE-41FA-9D4C-90C181BA44DC

P356

Q46914805-151BA0EC-1FE6-493A-B39E-5611044A959A

P433

Q46914805-5AB2A01C-1B3A-4830-A7C4-374C2DE418D8

P478

Q46914805-D173462A-C210-48BB-AA0B-C29F7D86EE29

P50

Q46914805-124F0671-6919-4EE3-BF07-8CB33210D6E7

Q46914805-4DB5C0EC-3F81-4640-9F27-8D3437CF3F58

Q46914805-6FB4A986-7A7E-4DFD-ABB6-F8A185C4AF8B

Q46914805-9C6DDD16-3725-4F9A-8C98-B4333E996075

Q46914805-B4757380-5C1D-4BAC-8C15-07C76F3CF7E1

P577

Q46914805-054920DB-5CD9-47B1-B5EC-018B18857760

P698

Q46914805-998D73FC-E49B-4D97-A385-3D3BDD1160D7

P356

NCHEMBIO.2007.46

P1433

Nature Chemical Biology

P1476

Catalytic generation of N2O3 b ...... ydrase activity of hemoglobin.

@en

P2093

Alice Jiang

http://www.w3.org/2001/XMLSchema#string

Anne Jeffers

http://www.w3.org/2001/XMLSchema#string

Atul Mehta

http://www.w3.org/2001/XMLSchema#string

Daniel B Kim-Shapiro

http://www.w3.org/2001/XMLSchema#string

Jeanet Conradie

http://www.w3.org/2001/XMLSchema#string

Jinming Huang

http://www.w3.org/2001/XMLSchema#string

Neil Hogg

http://www.w3.org/2001/XMLSchema#string

Rozalina Grubina

http://www.w3.org/2001/XMLSchema#string

Stephen Bruce King

http://www.w3.org/2001/XMLSchema#string

Swati Basu

http://www.w3.org/2001/XMLSchema#string

P2860

Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density

P2888

nchembio.2007.46

P304

785-794

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/NCHEMBIO.2007.46

http://www.w3.org/2001/XMLSchema#string

P433

12

http://www.w3.org/2001/XMLSchema#string

P478

3

http://www.w3.org/2001/XMLSchema#string

P50

Rakesh P. Patel

P577

2007-11-04T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

17982448

http://www.w3.org/2001/XMLSchema#string