Abstract
The key enzymes for poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) biosynthesis in haloarchaea have been identified except the β-ketothiolase(s), which condense two acetyl coenzyme A (acetyl-CoA) molecules to acetoacetyl-CoA, or one acetyl-CoA and one propionyl-CoA to 3-ketovaleryl-CoA. Whole-genome analysis has revealed eight potential β-ketothiolase genes in the haloarchaeon Haloferax mediterranei, among which the PHBV-specific BktB and PhaA were identified by gene knockout and complementation analysis. Unlike all known bacterial counterparts encoded by a single gene, the haloarchaeal PhaA that was involved in acetoacetyl-CoA generation, was composed of two different types of subunits (PhaAα and PhaAβ) and encoded by the cotranscribed HFX_1023 (phaAα) and HFX_1022 (phaAβ) genes. Similarly, the BktB that was involved in generation of acetoacetyl-CoA and 3-ketovaleryl-CoA, was also composed of two different types of subunits (BktBα and BktBβ) and encoded by cotranscribed HFX_6004 (bktBα) and HFX_6003 (bktBβ). BktBα and PhaAα were the catalytic subunits and determined substrate specificities of BktB and PhaA, respectively. Their catalytic triad "Ser-His-His" was distinct from the bacterial "Cys-His-Cys." BktBβ and PhaAβ both contained an oligosaccharide-binding fold domain, which was essential for the β-ketothiolase activity. Interestingly, BktBβ and PhaAβ were functionally interchangeable, although PhaAβ preferred functioning with PhaAα. In addition, BktB showed biotechnological potential for the production of PHBV with the desired 3-hydroxyvalerate fraction in haloarchaea. This is the first report of the haloarchaeal type of PHBV-specific β-ketothiolases, which are distinct from their bacterial counterparts in both subunit composition and catalytic residues.