Production of Fatty Acids and Derivatives Using Cyanobacteria

“…Finally, the C-terminal of the thioesterase (TE) domain catalyzes dehydration and decarboxylation reactions to produce the advanced biofuels olefin [ 80 ]. For example, 1-nonadecene [ 81 ] and 1,14-nonadecadiene can be synthesized according to this engineering strategy using curM-encoding enzyme with ORF ols as the agent responsible for expressing olefin synthase [ 82 , 83 ]. Some various short-chain ketones (C5–C7) such as ethyl ketone, methyl ketone can be produced by introducing a hybrid polyketide synthase (PKS) via fusing a PKS subunit of lipomycin synthase LipPks1 and a thioesterase (TE) in Streptomyces hosts [ 84 ].…”

Biosynthesis pathways of expanding carbon chains for producing advanced biofuels

“…Finally, the C-terminal of the thioesterase (TE) domain catalyzes dehydration and decarboxylation reactions to produce the advanced biofuels olefin [ 80 ]. For example, 1-nonadecene [ 81 ] and 1,14-nonadecadiene can be synthesized according to this engineering strategy using curM-encoding enzyme with ORF ols as the agent responsible for expressing olefin synthase [ 82 , 83 ]. Some various short-chain ketones (C5–C7) such as ethyl ketone, methyl ketone can be produced by introducing a hybrid polyketide synthase (PKS) via fusing a PKS subunit of lipomycin synthase LipPks1 and a thioesterase (TE) in Streptomyces hosts [ 84 ].…”

Biosynthesis pathways of expanding carbon chains for producing advanced biofuels