Scientific Reports (Dec 2020)

Heat induces end to end repetitive association in P. furiosus l-asparaginase which enables its thermophilic property

  • Pankaj Sharma,
  • Rachana Tomar,
  • Shivpratap Singh Yadav,
  • Maulik D. Badmalia,
  • Samir Kumar Nath,
  • Ashish,
  • Bishwajit Kundu

DOI
https://doi.org/10.1038/s41598-020-78877-z
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 14

Abstract

Read online

Abstract It remains undeciphered how thermophilic enzymes display enhanced stability at elevated temperatures. Taking l-asparaginase from P. furiosus (PfA) as an example, we combined scattering shapes deduced from small-angle X-ray scattering (SAXS) data at increased temperatures with symmetry mates from crystallographic structures to find that heating caused end-to-end association. The small contact point of self-binding appeared to be enabled by a terminal short β-strand in N-terminal domain, Leu179-Val-Val-Asn182 (LVVN). Interestingly, deletion of this strand led to a defunct enzyme, whereas suplementation of the peptide LVVN to the defunct enzyme restored structural frameworkwith mesophile-type functionality. Crystal structure of the peptide-bound defunct enzyme showed that one peptide ispresent in the same coordinates as in original enzyme, explaining gain-of lost function. A second peptide was seen bound to the protein at a different location suggesting its possible role in substrate-free molecular-association. Overall, we show that the heating induced self-assembly of native shapes of PfA led to an apparent super-stable assembly.