Abstract
The binding of oxygen to heme irons in hemoglobin promotes the binding of nitric oxide (NO) to cysteinebeta93, forming S-nitrosohemoglobin. Deoxygenation is accompanied by an allosteric transition in S-nitrosohemoglobin [from the R (oxygenated) to the T (deoxygenated) structure] that releases the NO group. S-nitrosohemoglobin contracts blood vessels and decreases cerebral perfusion in the R structure and relaxes vessels to improve blood flow in the T structure. By thus sensing the physiological oxygen gradient in tissues, hemoglobin exploits conformation-associated changes in the position of cysteinebeta93 SNO to bring local blood flow into line with oxygen requirements.
Publication types
-
Research Support, Non-U.S. Gov't
-
Research Support, U.S. Gov't, P.H.S.
MeSH terms
-
Animals
-
Blood Pressure
-
Cerebrovascular Circulation*
-
Cysteine / chemistry
-
Cysteine / metabolism
-
Hemodynamics*
-
Hemoglobins / analysis
-
Hemoglobins / chemistry
-
Hemoglobins / physiology*
-
Mercaptoethanol*
-
Models, Molecular
-
Nitric Oxide / blood
-
Nitric Oxide / metabolism
-
Nitroso Compounds / blood
-
Oxygen / blood*
-
Oxyhemoglobins / chemistry
-
Protein Conformation
-
Rats
-
Rats, Sprague-Dawley
-
S-Nitrosothiols*
Substances
-
Hemoglobins
-
Nitroso Compounds
-
Oxyhemoglobins
-
S-Nitrosothiols
-
S-nitrosohemoglobin
-
Nitric Oxide
-
Mercaptoethanol
-
S-nitrosomercaptoethanol
-
deoxyhemoglobin
-
Cysteine
-
Oxygen