Engineering faster transglycosidases and their acceptor specificity

Author:

Tran Linh T.12345ORCID,Blay Vincent678910ORCID,Luang Sukanya111213144,Eurtivong Chatchakorn151617184,Choknud Sunaree12345,González-Díaz Humbert192018421,Ketudat Cairns James R.12345ORCID

Affiliation:

1. School of Chemistry

2. Institute of Science

3. Suranaree University of Technology

4. Thailand

5. Center for Biomolecular Structure

6. Fisher College of Business

7. The Ohio State University

8. USA

9. Molecular Topology & Drug Design Research Unit

10. Departamento de Química Física

11. Department of Biochemistry

12. Faculty of Medicine

13. Khon Kaen University

14. Khon Kaen 40002

15. Program of Chemical Biology

16. Chulabhorn Graduate Institute

17. Chulabhorn Royal Academy of Science

18. Bangkok 10210

19. Laboratory of Biochemistry

20. Chulabhorn Research Institute

21. IKERBASQUE

Abstract

Transglycosidases have potential to catalyze the synthesis of high-value compounds from biomass-derived feedstocks. Cheminformatics can help design more active and versatile catalysts and discover new substrates.

Funder

Suranaree University of Technology

Thailand Research Fund

Ministerio de Economía y Competitividad

Eusko Jaurlaritza

Publisher

Royal Society of Chemistry (RSC)

Subject

Pollution,Environmental Chemistry

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