Journal article
Discovery and characterization of a sulfoquinovose mutarotase using kinetic analysis at equilibrium by exchange spectroscopy
P Abayakoon, JP Lingford, Y Jin, C Bengt, GJ Davies, S Yao, ED Goddard-Borger, SJ Williams
Biochemical Journal | PORTLAND PRESS LTD | Published : 2018
DOI: 10.1042/BCJ20170947
Abstract
Bacterial sulfoglycolytic pathways catabolize sulfoquinovose (SQ), or glycosides thereof, to generate a three-carbon metabolite for primary cellular metabolism and a three-carbon sulfonate that is expelled from the cell. Sulfoglycolytic operons encoding an Embden–Meyerhof–Parnas-like or Entner–Doudoroff (ED)-like pathway harbor an uncharacterized gene (yihR in Escherichia coli; PpSQ1_00415 in Pseudomonas putida) that is up-regulated in the presence of SQ, has been annotated as an aldose-1-epimerase and which may encode an SQ mutarotase. Our sequence analyses and structural modeling confirmed that these proteins possess mutarotase-like active sites with conserved catalytic residues. We overex..
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Funding Acknowledgements
We thank the Australian Research Council for funding [DP180101957]. G.J.D. is a Royal Society Ken Murray Research Fellow and sulfoquinovose work in York is supported by the Leverhulme Trust. E.D.G.-B. acknowledges support from the Australian Cancer Research Foundation, Victorian State Government Operational Infrastructure Support, and the National Health and Medical Research Council Independent Research Institute Infrastructure Support Scheme.