Metagenome-derived Haloalkane Dehalogenases with Novel Catalytic Properties

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Publikace nespadá pod Pedagogickou fakultu, ale pod Přírodovědeckou fakultu. Oficiální stránka publikace je na webu muni.cz.
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KOTÍK Martin VAŇÁČEK Pavel KUNKA Antonín PROKOP Zbyněk DAMBORSKÝ Jiří

Rok publikování 2017
Druh Článek v odborném periodiku
Časopis / Zdroj APPLIED MICROBIOLOGY AND BIOTECHNOLOGY
Fakulta / Pracoviště MU

Přírodovědecká fakulta

Citace
www https://loschmidt.chemi.muni.cz/peg/publications/metagenome-derived-haloalkane-dehalogenases-with-novel-catalytic-properties/
Doi http://dx.doi.org/10.1007/s00253-017-8393-3
Klíčová slova Haloalkane dehalogenase; Metagenomic DNA; Heterologous production; Substrate specificity; Protein stability
Popis Haloalkane dehalogenases (HLDs) are environmentally relevant enzymes cleaving a carbon-halogen bond in a wide range of halogenated pollutants. PCR with degenerate primers and genome-walking was used for the retrieval of four HLD-encoding genes from groundwater-derived environmental DNA. Using specific primers and the environmental DNA as a template, we succeeded in generating additional amplicons, resulting altogether in three clusters of sequences with each cluster comprising 8–13 closely related putative HLD-encoding genes. A phylogenetic analysis of the translated genes revealed that three HLDs are members of the HLD-I subfamily, whereas one gene encodes an enzyme from the subfamily HLD-II. Two metagenome-derived HLDs, eHLDB and eHLD-C, each from a different subfamily, were heterologously produced in active form, purified and characterized in terms of their thermostability, pH and temperature optimum, quaternary structure, substrate specificity towards 30 halogenated compounds, and enantioselectivity. eHLD-B and eHLD-C showed striking differences in their activities, substrate preferences, and tolerance to temperature. Profound differences were also determined in the enantiopreference and enantioselectivity of these enzymes towards selected substrates. Comparing our data with those of known HLDs revealed that eHLD-C exhibits a unique combination of high thermostability, high activity, and an unusually broad pH optimum, which covers the entire range of pH 5.5–8.9. Moreover, a so far unreported high thermostability for HLDs was determined for this enzyme at pH values lower than 6.0. Thus, eHLD-C represents an attractive and novel biocatalyst for biotechnological applications.
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