Literature summary for 1.14.99.48 extracted from

Loutet, S.A.; Kobylarz, M.J.; Chau, C.H.; Murphy, M.E.
IruO is a reductase for heme degradation by IsdI and IsdG proteins in Staphylococcus aureus (2013), J. Biol. Chem., 288, 25749-25759.

Search for more literature for 1.14.99.48

Natural Substrates/ Products (Substrates)

Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
protoheme + 4 AH2 + 4 O2	Staphylococcus aureus	-	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name NWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	Staphylococcus aureus	-	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name thatNWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	Staphylococcus aureus	-	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name NWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	Staphylococcus aureus	-	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name thatNWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	Staphylococcus aureus N315	-	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name thatNWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	Staphylococcus aureus N315	-	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name thatNWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	Staphylococcus aureus N315	-	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name NWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	Staphylococcus aureus N315	-	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name NWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?

Organism

Organism	UniProt	Comment	Textmining
Staphylococcus aureus	Q7A649	isoform IsdG	-
Staphylococcus aureus	Q7A827	isoform IsdI	-
Staphylococcus aureus N315	Q7A649	isoform IsdG	-
Staphylococcus aureus N315	Q7A827	isoform IsdI	-

Substrates and Products (Substrate)

Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name NWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name thatNWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	in the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus N315	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name thatNWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus N315	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	in the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus N315	15-oxo-beta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name NWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name NWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name thatNWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	in the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus N315	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name thatNWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus N315	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	in the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?
protoheme + 4 AH2 + 4 O2	-	Staphylococcus aureus N315	5-oxo-delta-bilirubin + Fe2+ + CO + 4 A + 4 H2O	oxidoreductase IruO, gene name NWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid. The major heme degradation products are 5-oxo-delta-bilirubin and 15-oxo-beta-bilirubin, i.e. staphylobilins	?

General Information

General Information	Comment	Organism
physiological function	oxidoreductase IruO, gene name thatNWMN2274, is the likely in vivo reductant required for heme degradation by Staphylococcus aureus. In the presence of NADPH and IruO, either IsdI or IsdG degrade bound heme 10fold more rapidly than with the chemical reductant ascorbic acid	Staphylococcus aureus

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Release 2023.1 (January 2023)