Conformational gating in ammonia lyases
Journal article, 2020

Background: Ammonia lyases are enzymes of industrial and biomedical interest. Knowledge of structure-dynamics-function relationship in ammonia lyases is instrumental for exploiting the potential of these enzymes in industrial or biomedical applications. Methods: We investigated the conformational changes in the proximity of the catalytic pocket of a 3-methylaspartate ammonia lyase (MAL) as a model system. At this scope, we used microsecond all-atom molecular dynamics simulations, analyzed with dimensionality reduction techniques, as well as in terms of contact networks and correlated motions. Results: We identify two regulatory elements in the MAL structure, i.e., the β5-α2 loop and the helix-hairpin-loop subdomain. These regulatory elements undergo conformational changes switching from ‘occluded’ to ‘open’ states. The rearrangements are coupled to changes in the accessibility of the active site. The β5-α2 loop and the helix-hairpin-loop subdomain modulate the formation of tunnels from the protein surface to the catalytic site, making the active site more accessible to the substrate when they are in an open state. Conclusions: Our work pinpoints a sequential mechanism, in which the helix-hairpin-loop subdomain of MAL needs to break a subset of intramolecular interactions first to favor the displacement of the β5-α2 loop. The coupled conformational changes of these two elements contribute to modulate the accessibility of the catalytic site. General significance: Similar molecular mechanisms can have broad relevance in other ammonia lyases with similar regulatory loops. Our results also imply that it is important to account for protein dynamics in the design of variants of ammonia lyases for industrial and biomedical applications.

Author

Matteo Lambrughi

Danish Cancer Research Society Center

Željka Sanader Maršić

Danish Cancer Research Society Center

Veronica Saez-Jimenez

Chalmers, Biology and Biological Engineering, Industrial Biotechnology

Valeria Mapelli

Chalmers, Biology and Biological Engineering, Industrial Biotechnology

Lisbeth Olsson

Chalmers, Biology and Biological Engineering, Industrial Biotechnology

Elena Papaleo

University of Copenhagen

Danish Cancer Research Society Center

Biochimica et Biophysica Acta - General Subjects

0304-4165 (ISSN) 18728006 (eISSN)

Vol. 1864 7 129605

Subject Categories

Biophysics

Structural Biology

Theoretical Chemistry

DOI

10.1016/j.bbagen.2020.129605

PubMed

32222547

More information

Latest update

5/20/2020