Substrate range and enantioselectivity of epoxidation reactions mediated by the ethene-oxidising Mycobacterium strain NBB4
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ArticleAbstract
Mycobacterium strain NBB4 is an ethene-oxidizing micro-organism isolated from the estuarine sediments of Botany Bay. In pursuit of new systems for biocatalytic epoxidation, we report the capacity of strain NBB4 to convert a diverse range of alkene substrates to epoxides. A colorimetric ...
See moreMycobacterium strain NBB4 is an ethene-oxidizing micro-organism isolated from the estuarine sediments of Botany Bay. In pursuit of new systems for biocatalytic epoxidation, we report the capacity of strain NBB4 to convert a diverse range of alkene substrates to epoxides. A colorimetric assay based on 4-(4- nitrobenzyl)pyridine (NBP) has been developed to allow the rapid characterisation and quantification of biocatalytic epoxide synthesis. Using this assay we have demonstrated that ethene-grown NBB4 cells epoxidise a wide range of alkenes, including terminal (propene, 1-butene, 1-hexene, 1-octene and 1-decene), cyclic (cyclopentene, cyclohexene), aromatic (styrene, indene), and functionalised substrates (allyl alcohol, dihydropyran and isoprene). Apparent specific activities have been determined and range from 2.5 to 12.0 nmol min-1 per milligram of cell protein. The enantioselectivity of epoxidation by Mycobacterium strain NBB4 has been established using styrene as a test substrate; (R)-styrene oxide is produced in enantiomeric excesses greater than 95%. Thus the ethene monooxygenase of Mycobacterium NBB4 has a broad substrate range and promising enantioselectivity, confirming its potential as a biocatalyst for alkene epoxidation.
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See moreMycobacterium strain NBB4 is an ethene-oxidizing micro-organism isolated from the estuarine sediments of Botany Bay. In pursuit of new systems for biocatalytic epoxidation, we report the capacity of strain NBB4 to convert a diverse range of alkene substrates to epoxides. A colorimetric assay based on 4-(4- nitrobenzyl)pyridine (NBP) has been developed to allow the rapid characterisation and quantification of biocatalytic epoxide synthesis. Using this assay we have demonstrated that ethene-grown NBB4 cells epoxidise a wide range of alkenes, including terminal (propene, 1-butene, 1-hexene, 1-octene and 1-decene), cyclic (cyclopentene, cyclohexene), aromatic (styrene, indene), and functionalised substrates (allyl alcohol, dihydropyran and isoprene). Apparent specific activities have been determined and range from 2.5 to 12.0 nmol min-1 per milligram of cell protein. The enantioselectivity of epoxidation by Mycobacterium strain NBB4 has been established using styrene as a test substrate; (R)-styrene oxide is produced in enantiomeric excesses greater than 95%. Thus the ethene monooxygenase of Mycobacterium NBB4 has a broad substrate range and promising enantioselectivity, confirming its potential as a biocatalyst for alkene epoxidation.
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Date
2012-03-14Publisher
SpringerFunding information
ARC DP0877315Licence
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This is a post-peer-review, pre-copyedit version of an article published in Applied Microbiology and Biotechnology. The final authenticated version is available online at: https://doi.org/10.1007/s00253-012-3975-6”.Faculty/School
Faculty of ScienceCitation
Cheung, S., McCarl, V., Holmes, A., Coleman, N., Rutledge, P. (2013). Substrate range and enantioselectivity of epoxidation reactions mediated by the ethene-oxidising Mycobacterium strain NBB4. Applied Microbiology and Biotechnology, 97(3), 1131-1140Share