Bacillus subtilis MraY in detergent-free system of nanodiscs wrapped by styrene-maleic acid copolymers

As an integral membrane protein, purification and characterization of phospho-N- acetylmuramyl- pentapeptide translocase MraY have proven difficult. Low yield and concerns of retaining stability and activity after detergent solubilization have hampered the structure-function analysis. The recently d...

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Bibliographic Details
Published in:PloS one 2018-11, Vol.13 (11), p.e0206692-e0206692
Main Authors: Liu, Yao, Moura, Elisabete C C M, Dörr, Jonas M, Scheidelaar, Stefan, Heger, Michal, Egmond, Maarten R, Killian, J Antoinette, Mohammadi, Tamimount, Breukink, Eefjan
Format: Article
Language:English
Subjects:
Acids
Bacillus subtilis
Bacteria
Biochemistry
Biology and Life Sciences
Biophysics
Biosynthesis
Copolymers
Denaturation
Deoxyribonucleic acid
DNA
E coli
Engineering and Technology
Enzymes
Function analysis
Integral membrane proteins
Lipids
Maleic acid
Membrane proteins
Membranes
Physical Sciences
Polymers
Protein purification
Protein structure
Proteins
Research and Analysis Methods
Secondary structure
Solubilization
Stability analysis
Structure-function relationships
Studies
Styrene
Styrenes
Substrates
Translocase
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Summary:As an integral membrane protein, purification and characterization of phospho-N- acetylmuramyl- pentapeptide translocase MraY have proven difficult. Low yield and concerns of retaining stability and activity after detergent solubilization have hampered the structure-function analysis. The recently developed detergent-free styrene-maleic acid (SMA) co-polymer system offers an alternative approach that may overcome these disadvantages. In this study, we used the detergent free system to purify MraY from Bacillus subtilis. This allowed efficient extraction of MraY that was heterologously produced in Escherichia coli membranes into SMA-wrapped nanodiscs. The purified MraY embedded in these nanodiscs (SMA-MraY) was comparable to the micellar MraY extracted with a conventional detergent (DDM) with regard to the yield and the purity of the recombinant protein but required significantly less time. The predominantly alpha-helical secondary structure of the protein in SMA-wrapped nanodiscs was also more stable against heat denaturation compared to the micellar protein. Thus, this detergent-free system is amenable to extract MraY efficiently and effectively while maintaining the biophysical properties of the protein. However, the apparent activity of the SMA-MraY was reduced compared to that of the detergent-solubilized protein. The present data indicates that this is caused by a lower accessibility of the enzyme in SMA-wrapped nanodiscs towards its polyisoprenoid substrate.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0206692