Crystal structure of a putative cytochrome P450 alkane hydroxylase (CYP153D17) from sphingomonas sp. PAMC 26605 and its conformational substrate binding

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Abstract

Enzymatic alkane hydroxylation reactions are useful for producing pharmaceutical and agricultural chemical intermediates from hydrocarbons. Several cytochrome P450 enzymes catalyze the regio-and stereo-specific hydroxylation of alkanes. We evaluated the substrate binding of a putative CYP alkane hydroxylase (CYP153D17) from the bacterium Sphingomonas sp. PAMC 26605. Substrate affinities to C10-C12 n-alkanes and C10-C14 fatty acids with Kd values varied from 0.42 to 0.59 µM. A longer alkane (C12) bound more strongly than a shorter alkane (C10), while shorter fatty acids (C10, capric acid; C12, lauric acid) bound more strongly than a longer fatty acid (C14, myristic acid). These data displayed a broad substrate specificity of CYP153D17, hence it was named as a putative CYP alkane hydroxylase. Moreover, the crystal structure of CYP153D17 was determined at 3.1 Å resolution. This is the first study to provide structural information for the CYP153D family. Structural analysis showed that a co-purified alkane-like compound bound near the active-site heme group. The alkane-like substrate is in the hydrophobic pocket containing Thr74, Met90, Ala175, Ile240, Leu241, Val244, Leu292, Met295, and Phe393. Comparison with other CYP structures suggested that conformational changes in the β1-β2, α3-α4, and α6-α7 connecting loop are important for incorporating the long hydrophobic alkane-like substrate. These results improve the understanding of the catalytic mechanism of CYP153D17 and provide valuable information for future protein engineering studies.

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Lee, C. W., Yu, S. C., Lee, J. H., Park, S. H., Park, H., Oh, T. J., & Lee, J. H. (2016). Crystal structure of a putative cytochrome P450 alkane hydroxylase (CYP153D17) from sphingomonas sp. PAMC 26605 and its conformational substrate binding. International Journal of Molecular Sciences, 17(12). https://doi.org/10.3390/ijms17122067

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