Abstract
Cytochrome P450 158A2 (CYP158A2) is encoded within a three-gene operon (sco1206-sco1208) in the prototypic soil bacterium Streptomyces coelicolor A3(2). This operon is widely conserved among streptomycetes. CYP158A2 has been suggested to produce polymers of flaviolin, a pigment that may protect microbes from UV radiation, in combination with the adjacent rppA gene, which encodes the type III polyketide synthase, 1,3,6,8-tetrahydroxynaphthalene synthase. Following cloning, expression, and purification of this cytochrome P450, we have shown that it can produce dimer and trimer products from the substrate flaviolin and that the structures of two of the dimeric products were established using mass spectrometry and multiple NMR methods. A comparison of the x-ray structures of ligand-free (1.75 angstroms) and flaviolin-bound (1.62 angstroms) forms of CYP158A2 demonstrates a major conformational change upon ligand binding that closes the entry into the active site, partly due to repositioning of the F and G helices. Particularly interesting is the presence of two molecules of flaviolin in the closed active site. The flaviolin molecules form a quasi-planar three-molecule stack including the heme of CYP158A2, suggesting that oxidative C-C coupling of these phenolic molecules leads to the production of flaviolin dimers.
Highlights
Cytochrome P450 (P450 or CYP)1 monooxygenases constitute a complex superfamily of proteins found in all biological
CYP158A2 from S. coelicolor A3(2) has been implicated in phenol oxidative coupling [18], generating red-brown pigments in actinomycetes. The gene encoding this P450 is located in the three-gene operon sco1206-sco1208 that contains the type III polyketide synthase 1,3,6,8-tetrahychrome P450 158A2; SRS, predicted substrate recognition sequences originally suggested in P450 sequences by Gotoh; COSY, correlated spectroscopy; HMQC, heteronuclear multiple quantum coherence; HMBC, heteronuclear multiple bond coherence; HPLC, high pressure liquid chromatography
We focused on the catalytic activity of CYP158A2 and demonstrated that CYP158A2 catalyzes the oxidative coupling of two or three THN-based flaviolin molecules involving C-C coupling
Summary
P450 or CYP, cytochrome P450 monooxygenase; THN, 1,3,6,8-tetrahydroxynaphthalene; CYP158A2, cytokingdoms from bacteria to humans and participate in the biosynthesis of physiologically important compounds as well as in detoxification of a wide variety of foreign compounds from the environment [1,2,3]. CYP158A2 from S. coelicolor A3(2) has been implicated in phenol oxidative coupling [18], generating red-brown pigments in actinomycetes The gene encoding this P450 (sco1207) is located in the three-gene operon sco1206-sco1208 that contains the type III polyketide synthase 1,3,6,8-tetrahychrome P450 158A2; SRS, predicted substrate recognition sequences originally suggested in P450 sequences by Gotoh; COSY, correlated spectroscopy; HMQC, heteronuclear multiple quantum coherence; HMBC, heteronuclear multiple bond coherence; HPLC, high pressure liquid chromatography. In the S. coelicolor operon containing CYP158A2, the 5Ј-gene rppA (sco1206) whose stop codon overlaps the start codon of CYP158A2 (sco1207) encodes THN synthase This type III polyketide synthase catalyzes the sequential conversion of five molecules of malonyl-CoA to THN, which undergoes spontaneous oxidation to flaviolin [19, 20]. To explore the molecular basis of this catalytic reaction, we have determined the crystal structures of CYP158A2 in the absence and presence of the substrate flaviolin, which provides the molecular basis for P450catalyzed oxidative coupling reactions
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