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- Title
Substrate specificity of plant nitrilase complexes is affected by their helical twist.
- Authors
Woodward, Jeremy D.; Trompetter, Inga; Sewell, B. Trevor; Piotrowski, Markus
- Abstract
Nitrilases are oligomeric, helix-forming enzymes from plants, fungi and bacteria that are involved in the metabolism of various natural and artificial nitriles. These biotechnologically important enzymes are often specific for certain substrates, but directed attempts at modifying their substrate specificities by exchanging binding pocket residues have been largely unsuccessful. Thus, the basis for their selectivity is still unknown. Here we show, based on work with two highly similar nitrilases from the plant Capsella rubella, that modifying nitrilase helical twist, either by exchanging an interface residue or by imposing a different twist, without altering any binding pocket residues, changes substrate preference. We reveal that helical twist and substrate size correlate and when binding pocket residues are exchanged between two nitrilases that show the same twist but different specificities, their specificities change. Based on these findings we propose that helical twist influences the overall size of the binding pocket. Jeremy Woodward et al. report that substrate specificity in nitrilases from Capsella rubella depend on their helical twist rather than substitutions in the substrate-binding site. They show that mutating interfacial residues can alter substrate specificity and helical twist.
- Subjects
NITRILASES; PLANT metabolism; PLANT biotechnology; CAPSELLA; PROTEIN binding
- Publication
Communications Biology, 2018, Vol 1, Issue 1, pN.PAG
- ISSN
2399-3642
- Publication type
Article
- DOI
10.1038/s42003-018-0186-4