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W2024172725 endingPage "978" @default.
W2024172725 startingPage "967" @default.
W2024172725 abstract "Heme proteins play a major role in various biological functions, such as oxygen sensing, electron transport, signal transduction, and antioxidant defense enzymes. Most of these reactions are carried out by redox reactions of heme iron. As the heme is not recycled, most cells containing heme proteins have the microsomal mixed function oxygenase, heme oxygenase, which enzymatically degrades heme to biliverdin, carbon monoxide, and iron. However, the red cell with the largest pool of heme protein, hemoglobin, contains no heme oxygenase, and enzymatic degradation of the red cell heme occurs only after the senescent red cells are removed by the reticuloendothelial system. Therefore, only nonenzymatic heme degradation initiated when the heme iron undergoes redox reactions in the presence of oxygen-producing reactive oxygen species takes place in the red cell. Unlike enzymatic degradation, which specifically attacks the α-methene bridge, reactive oxygen species randomly attack all the carbon methene bridges of the tetrapyrrole rings, producing various pyrrole products in addition to releasing iron. This review focuses on the literature related to nonenzymatic heme degradation with special emphasis on hemoglobin, the dominant red cell heme protein. Antioxid. Redox Signal. 6, 967–978." @default.
W2024172725 created "2016-06-24" @default.
W2024172725 creator A5001330490 @default.
W2024172725 creator A5021365260 @default.
W2024172725 date "2004-12-01" @default.
W2024172725 modified "2023-10-12" @default.
W2024172725 title "Heme Degradation by Reactive Oxygen Species" @default.
W2024172725 cites W118220357 @default.
W2024172725 cites W1491935126 @default.
W2024172725 cites W1509804778 @default.
W2024172725 cites W1540660343 @default.
W2024172725 cites W1582167355 @default.
W2024172725 cites W1588362559 @default.
W2024172725 cites W1589161844 @default.
W2024172725 cites W1605002548 @default.
W2024172725 cites W1634873152 @default.
W2024172725 cites W1655162787 @default.
W2024172725 cites W1734082729 @default.
W2024172725 cites W18122608 @default.
W2024172725 cites W1841695296 @default.
W2024172725 cites W1891909707 @default.
W2024172725 cites W1917786096 @default.
W2024172725 cites W194333168 @default.
W2024172725 cites W1951316205 @default.
W2024172725 cites W1969592782 @default.
W2024172725 cites W1970531387 @default.
W2024172725 cites W1974983150 @default.
W2024172725 cites W1978271236 @default.
W2024172725 cites W1981440600 @default.
W2024172725 cites W1985387709 @default.
W2024172725 cites W1987325894 @default.
W2024172725 cites W1990374730 @default.
W2024172725 cites W1992413871 @default.
W2024172725 cites W1996049054 @default.
W2024172725 cites W1997554053 @default.
W2024172725 cites W2002334319 @default.
W2024172725 cites W2011795894 @default.
W2024172725 cites W2016865127 @default.
W2024172725 cites W2023691423 @default.
W2024172725 cites W2028778467 @default.
W2024172725 cites W2046690044 @default.
W2024172725 cites W2050808395 @default.
W2024172725 cites W2050905302 @default.
W2024172725 cites W2055208350 @default.
W2024172725 cites W2061885883 @default.
W2024172725 cites W2068099029 @default.
W2024172725 cites W2070475899 @default.
W2024172725 cites W2070476917 @default.
W2024172725 cites W2072170860 @default.
W2024172725 cites W2076120472 @default.
W2024172725 cites W2079116625 @default.
W2024172725 cites W2085819401 @default.
W2024172725 cites W2086510170 @default.
W2024172725 cites W2087327771 @default.
W2024172725 cites W2087727263 @default.
W2024172725 cites W2090680981 @default.
W2024172725 cites W2094253672 @default.
W2024172725 cites W2108682052 @default.
W2024172725 cites W2121405189 @default.
W2024172725 cites W2134343103 @default.
W2024172725 cites W2134579473 @default.
W2024172725 cites W2138758680 @default.
W2024172725 cites W2148665382 @default.
W2024172725 cites W2171061412 @default.
W2024172725 cites W2189985921 @default.
W2024172725 cites W2210648408 @default.
W2024172725 cites W2229460713 @default.
W2024172725 cites W2329861151 @default.
W2024172725 cites W2335954883 @default.
W2024172725 cites W2344481344 @default.
W2024172725 cites W2405140428 @default.
W2024172725 cites W2407899251 @default.
W2024172725 cites W2411323646 @default.
W2024172725 cites W2412472440 @default.
W2024172725 cites W2413553466 @default.
W2024172725 cites W4244396178 @default.
W2024172725 cites W168694880 @default.
W2024172725 doi "https://doi.org/10.1089/ars.2004.6.967" @default.
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