Difference between revisions of "Part:BBa K3656307:Experience"

(Applications of BBa_K3656307)
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how you used this part and how it worked out.
 
how you used this part and how it worked out.
  
===Applications of BBa_K3656307===
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===Construction of OT3-CA2-MU-His expression plasmid===
 
By using the software Autodock for molecular docking, we studied the docking conformation of the substrate at the catalytic site, and analyzed the interaction between the residue at the catalytic site and the substrate. Autodock and PyMOL were used to further investigate the effects of secondary and tertiary structures of catalytic sites on catalytic processes. After research and discussion, we set up the mutation site and the alternative residue scheme, carried on the molecular docking of the recombinant enzyme, and then compared the enzyme-substrate docking conformation before and after the reorganization. Finally, suitable mutation sites and alternative residues were selected to simulate the mutation and the catalytic performance was improved theoretically.
 
By using the software Autodock for molecular docking, we studied the docking conformation of the substrate at the catalytic site, and analyzed the interaction between the residue at the catalytic site and the substrate. Autodock and PyMOL were used to further investigate the effects of secondary and tertiary structures of catalytic sites on catalytic processes. After research and discussion, we set up the mutation site and the alternative residue scheme, carried on the molecular docking of the recombinant enzyme, and then compared the enzyme-substrate docking conformation before and after the reorganization. Finally, suitable mutation sites and alternative residues were selected to simulate the mutation and the catalytic performance was improved theoretically.
  

Revision as of 15:37, 27 October 2020


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Construction of OT3-CA2-MU-His expression plasmid

By using the software Autodock for molecular docking, we studied the docking conformation of the substrate at the catalytic site, and analyzed the interaction between the residue at the catalytic site and the substrate. Autodock and PyMOL were used to further investigate the effects of secondary and tertiary structures of catalytic sites on catalytic processes. After research and discussion, we set up the mutation site and the alternative residue scheme, carried on the molecular docking of the recombinant enzyme, and then compared the enzyme-substrate docking conformation before and after the reorganization. Finally, suitable mutation sites and alternative residues were selected to simulate the mutation and the catalytic performance was improved theoretically.

Based on the simulation results, we finally determine appropriate mutations are respectively: 122: P and K (proline mutation of lysine) 122, 123, P and K (proline mutation of lysine) 123, 128, P and K (proline mutation of lysine) 128, 132: L - > K (leucine mutation of lysine) 132, 134: L - > K (134th leucine mutation of lysine), and 137 - bit: P→K (leucine at 137 was mutated to lysine), and the mutated OT3-CA (OT3-ca-Mu, BBa_K3656307, Fig.1) was finally obtained, which enhanced its catalytic activity under high temperature conditions.

Fig. 1 Structure of Mutant OT3-CA
Table 1. Using Auto Dock software to analyze the docking results of OT3-CA-WT and OT3-CA-MU with carbonic acid respectively.
Name OT3-CA-WT OT3-CA-MU
Part Number BBa_K3656305 BBa_K3656309
binding_energy -5.08 -5.37
ligand_efficiency -1.27 -1.34
inhib_constant 187.83 116.58
inhib_constant_units uM uM
intermol_energy -5.68 -5.96
vdw_hb_desolv_energy -1.76 -1.92
electrostatic_energy -3.92 -4.04
total_intermal 0.05 0.02
torsional_energy 0.6 0.6
unbound_energy 0.05 0.02

Secondly, we also use SnapGene design software to simulate and construct OT3-CA-MU-His recombinant vector (Fig. 2 with pET-28a (+) as the carrier.

Fig. 2 Map of OT3-CA-MU-His recombinant vector

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