Rashamuse_2007_J.Appl.Microbiol_103_1610

Reference

Title : A novel recombinant ethyl ferulate esterase from Burkholderia multivorans - Rashamuse_2007_J.Appl.Microbiol_103_1610
Author(s) : Rashamuse KJ , Burton SG , Cowan DA
Ref : J Appl Microbiol , 103 :1610 , 2007
Abstract :

AIMS: Isolation and identification of bacterial isolates with specific ferulic acid (FA) esterase activity and cloning of a gene encoding activity. METHODS AND
RESULTS: A micro-organism with ethyl ferulate hydrolysing (EFH) activity was isolated by culture enrichment techniques. Detailed molecular identification based on species-specific primers and two conserved genes (16S rRNA and recA) led to the identification of the isolate as Burkholderia multivorans UWC10. A gene (designated estEFH5) encoding an EFH enzyme was cloned and its nucleotide sequence determined. Translational analysis revealed that estEFH5 encoded a polypeptide of 326 amino acids with an estimated molecular weight of 34.83 kDa. The EstEFH5 primary structure showed a typical serine hydrolase motif (G-H-S-L-G). The estEFH5 gene was over-expressed in Escherichia coli in an insoluble form. Following urea denaturation and in vitro refolding, the enzyme was purified using one-step His Select Nickel chromatographic column. CONCLUSION: Purified EstEFH5 showed a preference for short-chain rho-nitrophenyl esters (C2 and C3) a typical feature for carboxylesterase. Furthermore, the recombinant enzyme also retained the activity against ethyl ferulate (EF). SIGNIFICANCE AND IMPACT OF THE STUDY: A biocatalytic process for the production of FA from EF as a model substrate was demonstrated. This is the first report that describes the cloning and expression of a gene encoding FA esterase activity from the genus Burkholderia.

PubMedSearch : Rashamuse_2007_J.Appl.Microbiol_103_1610
PubMedID: 17953572

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Citations formats

Rashamuse KJ, Burton SG, Cowan DA (2007)
A novel recombinant ethyl ferulate esterase from Burkholderia multivorans
J Appl Microbiol 103 :1610

Rashamuse KJ, Burton SG, Cowan DA (2007)
J Appl Microbiol 103 :1610