Difference between revisions of "Part:BBa K771308"

Revision as of 14:40, 28 September 2012

FabI with Membrane Anchor 5(without VVD )

BBa_K771308:FabI is linked to C terminal of BBa K771008 by Flexible Linker 3(FL3).

Fatty acid Biosynthetic Pathway

TesA involves in the biosynthesis of fatty acids in E.coli. The biosynthesis pathway is shown as below:

fig.1Fatty acid biosynthesis pathways in E.coli, showing the role of FabG, FabZ, FabI and TesA.

The E. coli fatty acid synthesis is initiated when holo-ACP, NADPH and NADH, acetyl-CoA and malonyl-CoA undergo condensation and subsequent reduction to form butyryl-ACP. These reactions are catalyzed by the malonyl-CoA:ACP transacylase FabD, the ketosynthase FabH, the NADPH-dependent ketoreductase FabG, either the dual-function dehydratase/isomerase FabA or the monofunctional dehydratase FabZ, and the NADH-dependent enoyl reductase FabI. Then the butyryl-ACP is extended via 5-7 rounds of analogous reactions to produce a C14 to C18-ACP either fully saturated or monounsaturated. These extension cycles are catalyzed by either the ketosynthase FabB or FabF in collaboration with FabD, FabG, FabA or FabZ, and FabI. Finally, the full-length fatty acid is released from the corresponding fatty acyl-ACP via hydrolysis by C16-specific thioesterase,TesA.

The cooperation of enzymes with membrane anchors

TesA with Membrane Anchor 2 (without MS2), FabG with Membrane Anchor 3, FabZ with Membrane Anchor 4, FabI with Membrane Anchor 4(without VVD) could significantly enhance the production of fatty acid by 9 fold compared with enzymes without membrane anchor.

To optimize the productivity of the system we established, we tended to combine these two privileges together, gathering TesA, FabG, FabI and FabZ through receptor-ligand interaction. Notable increase in both diversity and amount of fatty acids were detected.

Fig.2 shows fatty acid content in supernatant of three groups to evaluate the advantages of membrane anchored TesA，FabG,FabZ and FabI. A indicates C16/C18 fatty acids content. B stands for the total amount of fatty acids. C shows the changes in products diversity.

Cluster of FabG, FabI and FabZ provides C16- and C18 specific TesA with sufficient amount of fatty acyl-ACP to hydrolyze and release. Therefore, we witnessed a tremendous growth in the turnover of fatty acids with C16 and C18 skeleton in the supernatant.(Fig.2 A)

Moreover, fatty acids with C14 skeleton was first detected in E.coli expressing membrane anchored enzymes compared with ones with free enzymes. It is probably because the productivity of cluster of FabG, FabI and FabZ overloads itself when carbon chain growth slows down as it elongates. Monounsaturated fatty acids also emerge in considerable amount for the first time since TesA is located so closely to the cluster of FabG, FabI and FabZ that it catches intermediate with C16 and C18 skeleton even before they are reduced.(Fig.2 C)

Augment in both diversity and amount of fatty acids led to 24 fold increase in total yield compared with wild type and 9 fold with ones expressing free enzymes. (Fig.2 B) The exciting result convincingly proves that membrane enhances receptor-ligand interaction and cluster of enzymes makes it faster to a surprising extent. Products acclumulates near inner membrane and traval a shorter distance to diffuse through membrane.

Sequence and Features