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W2897032853 endingPage "117" @default.
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W2897032853 abstract "Mammalian cells contain thousands of metalloproteins and have evolved sophisticated systems for ensuring that metal cofactors are correctly assembled and delivered to their proper destinations. Equally critical in this process are the strategies to avoid the insertion of the wrong metal cofactor into apo-proteins and to avoid the damage that redox-active metals can catalyze in the cellular milieu. Iron and zinc are the most abundant metal cofactors in cells and iron cofactors include heme, iron-sulfur clusters, and mono- and dinuclear iron centers. Systems for the intracellular trafficking of iron cofactors are being characterized. This review focuses on the trafficking of ferrous iron cofactors in the cytosol of mammalian cells, a process that involves specialized iron-binding proteins, termed iron chaperones, of the poly rC-binding protein family." @default.
W2897032853 created "2018-10-26" @default.
W2897032853 creator A5047992933 @default.
W2897032853 creator A5064963298 @default.
W2897032853 date "2019-03-01" @default.
W2897032853 modified "2023-09-29" @default.
W2897032853 title "The ins and outs of iron: Escorting iron through the mammalian cytosol" @default.
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W2897032853 cites W1980042430 @default.
W2897032853 cites W1986696172 @default.
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W2897032853 cites W2006842165 @default.
W2897032853 cites W2008883395 @default.
W2897032853 cites W2011444292 @default.
W2897032853 cites W2014892666 @default.
W2897032853 cites W2025063713 @default.
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W2897032853 cites W2027602425 @default.
W2897032853 cites W2028628841 @default.
W2897032853 cites W2028778467 @default.
W2897032853 cites W2034567135 @default.
W2897032853 cites W2035594105 @default.
W2897032853 cites W2036415527 @default.
W2897032853 cites W2047812782 @default.
W2897032853 cites W2051686057 @default.
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W2897032853 cites W2069774708 @default.
W2897032853 cites W2071575900 @default.
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W2897032853 cites W2100681150 @default.
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W2897032853 cites W2141939425 @default.
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W2897032853 cites W2163609588 @default.
W2897032853 cites W2170518899 @default.
W2897032853 cites W2170885365 @default.
W2897032853 cites W2174098335 @default.
W2897032853 cites W2426081542 @default.
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W2897032853 doi "https://doi.org/10.1016/j.freeradbiomed.2018.10.411" @default.
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