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Sci Adv ; 9(13): eadg3881, 2023 03 31.
Article in English | MEDLINE | ID: mdl-37000872

ABSTRACT

Ongoing climate change is driving the search for renewable and carbon-neutral alternatives to fossil fuels. Photocatalytic conversion of fatty acids to hydrocarbons by fatty acid photodecarboxylase (FAP) represents a promising route to green fuels. However, the alleged low activity of FAP on C2 to C12 fatty acids seemed to preclude the use for synthesis of gasoline-range hydrocarbons. Here, we reveal that Chlorella variabilis FAP (CvFAP) can convert n-octanoic acid in vitro four times faster than n-hexadecanoic acid, its best substrate reported to date. In vivo, this translates into a CvFAP-based production rate over 10-fold higher for n-heptane than for n-pentadecane. Time-resolved spectroscopy and molecular modeling demonstrate that CvFAP's high catalytic activity on n-octanoic acid is, in part, due to an autocatalytic effect of its n-heptane product, which fills the rest of the binding pocket. These results represent an important step toward a bio-based and light-driven production of gasoline-like hydrocarbons.


Subject(s)
Chlorella , Fatty Acids , Fatty Acids/metabolism , Caprylates/metabolism , Gasoline , Chlorella/metabolism , Hydrocarbons
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