Literature summary for 1.14.13.236 extracted from

Brouk, M.; Nov, Y.; Fishman, A.
Improving biocatalyst performance by integrating statistical methods into protein engineering (2010), Appl. Environ. Microbiol., 76, 6397-6403.

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Application

Application	Comment	Organism
synthesis	improved synthesis of hydroxytyrosol in whole-cell biotransformation. An overall concentration of 133 mg/l hydroxytyrosol, corresponding to a volumetric productivity of 54 mg/l/h and a yield of 48% is achieved by a batch mode using 2 mM substrate. The use of beads conjugated with phenylboronic acid residues for adsorbing the product from the biotransformation bulk leads to 2fold purification resulting in 84% purity with 70% recovery yield	Pseudomonas mendocina

Organism

Organism	UniProt	Comment	Textmining
Pseudomonas mendocina	Q6Q8Q7 and Q6Q8Q6 and Q6Q8Q5 and Q6Q8Q4 and Q6Q8Q3 and Q6Q8Q2	Q6Q8Q7 i.e. subunit TmoA, Q6Q8Q6 i.e. subunit TmoB, Q6Q8Q5 i.e. subunit TmoC, Q6Q8Q4 i.e. subunit TmoD, Q6Q8Q3 i.e. subunit TmoE, Q6Q8Q2 i.e. subunit TmoF	-
Pseudomonas mendocina KR1	Q6Q8Q7 and Q6Q8Q6 and Q6Q8Q5 and Q6Q8Q4 and Q6Q8Q3 and Q6Q8Q2	Q6Q8Q7 i.e. subunit TmoA, Q6Q8Q6 i.e. subunit TmoB, Q6Q8Q5 i.e. subunit TmoC, Q6Q8Q4 i.e. subunit TmoD, Q6Q8Q3 i.e. subunit TmoE, Q6Q8Q2 i.e. subunit TmoF	-

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Release 2023.1 (January 2023)