A Nonconventional Archaeal Fluorinase Identified by In SilicoMining for Enhanced Fluorine Biocatalysis br

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Authors	PARDO Isabel BEDNÁŘ David CALERO Patricia VOLKE Daniel C DAMBORSKÝ Jiří NIKEL Pablo I.
Year of publication	2022
Type	Article in Periodical
Magazine / Source	ACS Catalysis
MU Faculty or unit	Faculty of Science
Citation
Web	https://pubs.acs.org/doi/10.1021/acscatal.2c01184
Doi	http://dx.doi.org/10.1021/acscatal.2c01184
Keywords	fluorinase; fluorine; organofluorine; synthetic biology; biocatalysis; metabolic engineering; synthetic metabolism
Attached files	1883599.pdf
Description	Fluorinases, the only enzymes known to catalyze thetransfer offluorine to an organic molecule, are essential catalysts forthe biological synthesis of valuable organofluorines. However, the fewfluorinases identified so far have low turnover rates that hamperbiotechnological applications. Here, we isolated and characterizedputativefluorinases retrieved from systematic in silico mining andidentified a nonconventional archaeal enzyme fromMethanosaetasp.that mediates the fastest SN2fluorination rate reported to date.Furthermore, we demonstrate enhanced production offluoronucleo-tides in vivo in a bacterial host engineered with this archaealfluorinase, paving the way toward synthetic metabolism for efficientbiohalogenation.
Related projects:	Synthetic biology-guided engineering of Pseudomonas putida for biofluorination Studium molekulováho rozpoznávání a vývoj nových softwarových nástrojů pro identifikaci a design přístupových cest v proteinech