| Autor: |
Lin CY; Department of Chemistry, The Pennsylvania State University; University Park, PA 16802, USA., Muñoz AL; Department of Biochemistry and Molecular Biology, The Pennsylvania State University; University Park, PA 16802, USA., Laremore TN; Huck Institutes of the Life Sciences, The Pennsylvania State University; University Park, PA 16802, USA., Silakov A; Department of Chemistry, The Pennsylvania State University; University Park, PA 16802, USA., Krebs C; Department of Chemistry, The Pennsylvania State University; University Park, PA 16802, USA.; Department of Biochemistry and Molecular Biology, The Pennsylvania State University; University Park, PA 16802, USA., Boal AK; Department of Chemistry, The Pennsylvania State University; University Park, PA 16802, USA.; Department of Biochemistry and Molecular Biology, The Pennsylvania State University; University Park, PA 16802, USA., Bollinger JM Jr; Department of Chemistry, The Pennsylvania State University; University Park, PA 16802, USA.; Department of Biochemistry and Molecular Biology, The Pennsylvania State University; University Park, PA 16802, USA. |
| Abstrakt: |
Important bioactive natural products, including prostaglandin H 2 and artemisinin, contain reactive endoperoxides. Known enzymatic pathways for endoperoxide installation require multiple hydrogen-atom transfers (HATs). For example, iron(II)- and 2-oxoglutarate-dependent verruculogen synthase (FtmOx1; EC 1.14.11.38) mediates HAT from aliphatic C21 of fumitremorgin B, capture of O 2 by the C21 radical (C21•), addition of the peroxyl radical (C21-O-O•) to olefinic C27, and HAT to the resultant C26•. Recent studies proposed conflicting roles for FtmOx1 tyrosine residues, Tyr224 and Tyr68, in the HATs from C21 and to C26•. Here, analysis of variant proteins bearing a ring-halogenated tyrosine or (amino)phenylalanine in place of either residue establishes that Tyr68 is the hydrogen donor to C26•, while Tyr224 has no essential role. The radicals that accumulate rapidly in FtmOx1 variants bearing a HAT-competent tyrosine analog at position 68 exhibit hypsochromically shifted absorption and, in cases of fluorine substitution, 19 F-coupled electron-paramagnetic-resonance (EPR) spectra. By contrast, functional Tyr224-substituted variants generate radicals with unaltered light-absorption and EPR signatures as they produce verruculogen. The alternative major product of the Tyr68Phe variant, which forms competitively with verruculogen also in wild-type FtmOx1 in 2 H 2 O and in the variant with the less readily oxidized 2,3-F 2 Tyr at position 68, is identified by mass spectrometry and isotopic labeling as the 26-hydroxy-21,27-endoperoxide compound formed after capture of another equivalent of O 2 by the longer lived C26•. The results highlight the considerable chemical challenges the enzyme must navigate in averting both oxygen rebound and a second O 2 coupling to obtain verruculogen selectively over other possible products. |
