Journal
BIOCHEMISTRY
Volume 45, Issue 51, Pages 15444-15457Publisher
AMER CHEMICAL SOC
DOI: 10.1021/bi061998z
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- NIGMS NIH HHS [GM 20011] Funding Source: Medline
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The purple chromobacterial pigment violacein arises by enzymatic oxidation and coupling of two molecules of L-tryptophan to give a rearranged pyrrolidone-containing scaffold in the final pigment. We have purified five contiguously encoded proteins VioA-E after expression in Escherichia coli and demonstrate the full 14-electron oxidation pathway to yield the final chromophore. The flavoenzyme VioA and the heme protein VioB work in conjunction to oxidize and dimerize L-tryptophan to a nascent product that can default to the off pathway metabolite chromopyrrolic acid. In the presence of VioE, the intermediate instead undergoes on-pathway [1,2] indole rearrangement to prodeoxyviolacein. The last two enzymes in the pathway are flavin-dependent oxygenases, VioC and VioD, that act sequentially. VioD hydroxylates one indole ring at the 5-position to yield proviolacein, and VioC then acts on the other indole ring at the 2-position to create the oxindole and complete violacein formation.
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