Author
Listed:
- Andrea Schenkmayerova
(St. Anne’s University Hospital Brno
Masaryk University)
- Gaspar P. Pinto
(St. Anne’s University Hospital Brno
Masaryk University)
- Martin Toul
(St. Anne’s University Hospital Brno
Masaryk University)
- Martin Marek
(Masaryk University)
- Lenka Hernychova
(Masaryk Memorial Cancer Institute)
- Joan Planas-Iglesias
(St. Anne’s University Hospital Brno
Masaryk University)
- Veronika Daniel Liskova
(St. Anne’s University Hospital Brno
Masaryk University)
- Daniel Pluskal
(Masaryk University)
- Michal Vasina
(St. Anne’s University Hospital Brno
Masaryk University)
- Stephane Emond
(University of Cambridge)
- Mark Dörr
(University of Greifswald)
- Radka Chaloupkova
(Masaryk University)
- David Bednar
(St. Anne’s University Hospital Brno
Masaryk University)
- Zbynek Prokop
(St. Anne’s University Hospital Brno
Masaryk University)
- Florian Hollfelder
(University of Cambridge)
- Uwe T. Bornscheuer
(University of Greifswald)
- Jiri Damborsky
(St. Anne’s University Hospital Brno
Masaryk University)
Abstract
Protein dynamics are often invoked in explanations of enzyme catalysis, but their design has proven elusive. Here we track the role of dynamics in evolution, starting from the evolvable and thermostable ancestral protein AncHLD-RLuc which catalyses both dehalogenase and luciferase reactions. Insertion-deletion (InDel) backbone mutagenesis of AncHLD-RLuc challenged the scaffold dynamics. Screening for both activities reveals InDel mutations localized in three distinct regions that lead to altered protein dynamics (based on crystallographic B-factors, hydrogen exchange, and molecular dynamics simulations). An anisotropic network model highlights the importance of the conformational flexibility of a loop-helix fragment of Renilla luciferases for ligand binding. Transplantation of this dynamic fragment leads to lower product inhibition and highly stable glow-type bioluminescence. The success of our approach suggests that a strategy comprising (i) constructing a stable and evolvable template, (ii) mapping functional regions by backbone mutagenesis, and (iii) transplantation of dynamic features, can lead to functionally innovative proteins.
Suggested Citation
Andrea Schenkmayerova & Gaspar P. Pinto & Martin Toul & Martin Marek & Lenka Hernychova & Joan Planas-Iglesias & Veronika Daniel Liskova & Daniel Pluskal & Michal Vasina & Stephane Emond & Mark Dörr &, 2021.
"Engineering the protein dynamics of an ancestral luciferase,"
Nature Communications, Nature, vol. 12(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-23450-z
DOI: 10.1038/s41467-021-23450-z
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Citations
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Cited by:
- Dan Kozome & Adnan Sljoka & Paola Laurino, 2024.
"Remote loop evolution reveals a complex biological function for chitinase enzymes beyond the active site,"
Nature Communications, Nature, vol. 15(1), pages 1-11, December.
- Michal Nemergut & Daniel Pluskal & Jana Horackova & Tereza Sustrova & Jan Tulis & Tomas Barta & Racha Baatallah & Glwadys Gagnot & Veronika Novakova & Marika Majerova & Karolina Sedlackova & Sérgio M., 2023.
"Illuminating the mechanism and allosteric behavior of NanoLuc luciferase,"
Nature Communications, Nature, vol. 14(1), pages 1-20, December.
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