Vitamin
K is essential for blood coagulation and plays important
roles in bone and cardiovascular health. Menaquinone-7 (MK-7) is one
form of vitamin K that is especially useful due to its long half-life
in the circulation. MK-7 is difficult to make via organic synthesis, and is thus commonly produced by fermentation.
This study aimed to genetically modify Bacillus subtilis cultures to increase their MK-7 yield and reduce production costs.
We constructed 12 different strains of B. subtilis 168 by overexpressing different combinations of the rate-limiting
enzymes Dxs, Dxr, Idi, and MenA. We observed an 11-fold enhancement
of production in the best-performing strain, resulting in 50 mg/L
MK-7. Metabolite analysis revealed new bottlenecks in the pathway
at IspG and IspH, which suggest avenues for further optimization.
This work highlights the usefulness of Bacillus subtilis for industrial production of high value compounds.
Alkene monooxygenases (MOs) are soluble di-iron-containing enzymes found in bacteria that grow on alkenes. Here, we report improved heterologous expression systems for the propene MO (PmoABCD) and ethene MO (EtnABCD) from strain NBB4. Strong functional expression of PmoABCD and EtnABCD was achieved in mc155, yielding epoxidation activities (62 and 27 nmol/min/mg protein, respectively) higher than any reported to date for heterologous expression of a di-iron MO system. Both PmoABCD and EtnABCD were specialized for the oxidation of gaseous alkenes (C to C), and their activity was much lower on liquid alkenes (C to C). Despite intensive efforts to express the complete EtnABCD enzyme in , this was not achieved, although recombinant EtnB and EtnD proteins could be purified individually in soluble form. The biochemical function of EtnD as an oxidoreductase was confirmed (1.36 μmol cytochrome reduced/min/mg protein). Cloning the EtnABCD gene cluster into KT2440 yielded detectable epoxidation of ethene (0.5 nmol/min/mg protein), and this could be stimulated (up to 1.1 nmol/min/mg protein) by the coexpression of chaperonins from either spp. or Successful expression of the ethene MO in a Gram-negative host was validated by both whole-cell activity assays and peptide mass spectrometry of induced proteins seen on SDS-PAGE gels. Alkene MOs are of interest for their potential roles in industrial biocatalysis, most notably for the stereoselective synthesis of epoxides. Wild-type bacteria that grow on alkenes have high activities for alkene oxidation but are problematic for biocatalysis, since they tend to consume the epoxide products. Using recombinant biocatalysts is the obvious alternative, but a major bottleneck is the low activities of recombinant alkene MOs. Here, we provide new high-activity recombinant biocatalysts for alkene oxidation, and we provide insights into how to further improve these systems.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.