Functional Display of an Amoebic Chitinase in Escherichia coli Expressing the Catalytic Domain of EhCHT1 on the Bacterial Cell Surface
Autor: | Celina Terán-Ramírez, Ignacio A. Rivero, Ana L. Estrada-González, Samuel G. Meléndez-López, Rosa E. Mares-Alejandre, Marco A. Ramos-Ibarra, Ricardo Torres-Bañaga, Patricia L A Muñoz-Muñoz |
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Rok vydání: | 2020 |
Předmět: |
0106 biological sciences
Endochitinase activity Bioengineering medicine.disease_cause 01 natural sciences Applied Microbiology and Biotechnology Biochemistry Bacterial cell structure chemistry.chemical_compound Chitin 010608 biotechnology Enzymatic hydrolysis medicine Molecular Biology Escherichia coli chemistry.chemical_classification biology 010405 organic chemistry Chemistry General Medicine biology.organism_classification 0104 chemical sciences Enzyme Chitinase biology.protein Bacteria Biotechnology |
Zdroj: | Applied Biochemistry and Biotechnology. 192:1255-1269 |
ISSN: | 1559-0291 0273-2289 |
DOI: | 10.1007/s12010-020-03389-5 |
Popis: | Poor solubility is the main drawback of the direct industrial exploitation of chitin, the second most abundant biopolymer after cellulose. Chemical methods are conventional to solubilize chitin from natural sources. Enzymatic hydrolysis of soluble chitinous substrates is a promising approach to obtain value-added by-products, such as N-acetylglucosamine units or low molecular weight chito-oligomers. Protein display on the bacterial membrane remains attractive to produce active enzymes anchored to a biological surface. The Lpp-OmpA system, a gene fusion of the Lpp signal sequence with the OmpA transmembrane region, represents the traditional system for targeting enzymes to the E. coli surface. EhCHT1, the amoebic chitinase, exhibits an efficient endochitinolytic activity and significant biochemical features, such as stability over a wide range of pH values. Using an extended Lpp-OmpA system as a protein carrier, we engineered E. coli to express the catalytic domain of EhCHT1 on the surface and assess the endochitinase activity as a trait. Engineered bacteria showed a consistent hydrolytic rate over a typical substrate, suggesting that the displayed enzyme has operational stability. This study supports the potential of biomembrane-associated biocatalysts as a reliable technology for the hydrolysis of soluble chitinous substrates. |
Databáze: | OpenAIRE |
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