Translational_Unit

Part:BBa_K1497002

Designed by: Sascha Hein, Sven Jager, Thomas Dohmen, Sven Rumpf   Group: iGEM14_TU_Darmstadt   (2014-10-07)
Revision as of 20:28, 16 October 2014 by SaHein (Talk | contribs)

B0034-eANS (engineered anthocyanidin synthase with strong RBS)


The anthocyanidin synthase from Fragaria x ananassa (ANS, EC 1.14.11.19) catalyzes many reactions in the anthocyanidin pathway. The TU Darmstadt iGEM team 2014 used its functionality by catalyzing the conversion of leucoanthocyanidin (2R,3S,4S)-cis-lucopelargonidin to the anthocyanidin pelargonidin.

It also catalyzes the conversion of the leucoanthocyanidin to flavonol (kampferol). For avoiding this side reaction, the iGEM team of TU Darmstadt 2014 designed a protein scaffold for enhancing metabolic flux.

Earlier studies hypothesized that the used enzymes may be involved in metabolic channeling in their original organisms. By modelling the mechanical movements of ANS, they discovered a strong flexibility at the C-terminus. Subsequently they modelled ANS' structure and its movements. Thereby they detected a tail of the enzyme fluctuating and covering the active site.

For improving the enzyme the iGEM team TU Darmstadt 2014 decided to remove the tail and to construct their pelargonidin operon with this engineered ANS (eANS). The laboratory results cover the previous modeling results. The engineered ANS exhibited better yields than the original one when used in an operon producing pelargonidin (BBa_K1497015).


Figure 1 Elastic network model of the anthocyanidin synthase.


Figure 2 A: Visualization of the linear response theory results of the ANS. B: Linear response theory model (LRT): The RMSF (ref. RMSF Plots) computations reproduced the results derived from the coarse grained simulations. This underlines the complexity and importance of coarse grained simulations for rational protein design. With the RMSF we can clearly bring to proof that the C Terminal region is highly flexible and thus a obstacle to the active site of the ANS.

Conclusion: It was necessary to unleash the active site by cutting of the C- Terminal region. Only with this modification we can increase the turnover of the ANS.



Sequence and Features BBa_K1497002 SequenceAndFeatures

[edit]
Categories
//cds/biosynthesis
//cds/biosynthesis/anthocyanins
Parameters
n/aB0034-sANS (short anthocyanidin synthase with strong RBS)