Visualization of the Reaction Trajectory and Transition State in a Hydrolytic Reaction Catalyzed by a Metalloenzyme

Christopher Selleck; Daniel Clayton; Lawrence R Gahan; Nataša Mitić; Ross P McGeary; Marcelo Monteiro Pedroso; Luke W Guddat; Gerhard Schenk

doi:10.1002/chem.201700866

Visualization of the Reaction Trajectory and Transition State in a Hydrolytic Reaction Catalyzed by a Metalloenzyme

Chemistry. 2017 Apr 6;23(20):4778-4781. doi: 10.1002/chem.201700866. Epub 2017 Mar 23.

Authors

Christopher Selleck¹, Daniel Clayton¹, Lawrence R Gahan¹, Nataša Mitić², Ross P McGeary¹, Marcelo Monteiro Pedroso¹, Luke W Guddat¹, Gerhard Schenk¹

Affiliations

¹ School of Chemistry and Molecular Biosciences, The University of Queensland, St. Lucia, Queensland, 4072, Australia.
² Department of Chemistry, Maynooth University, Maynooth, Co., Kildare, Ireland.

PMID: 28261912
DOI: 10.1002/chem.201700866

Abstract

Metallohydrolases are a vast family of enzymes that play crucial roles in numerous metabolic pathways. Several members have emerged as targets for chemotherapeutics. Knowledge about their reaction mechanisms and associated transition states greatly aids the design of potent and highly specific drug leads. By using a high-resolution crystal structure, we have probed the trajectory of the reaction catalyzed by purple acid phosphatase, an enzyme essential for the integrity of bone structure. In particular, the transition state is visualized, thus providing detailed structural information that may be exploited in the design of specific inhibitors for the development of new anti-osteoporotic chemotherapeutics.

Keywords: enzymes; hydrolases; metallohydrolases; transition states.

MeSH terms

Acid Phosphatase / chemistry
Acid Phosphatase / metabolism*
Animals
Biocatalysis
Catalytic Domain
Crystallography, X-Ray
Glycoproteins / chemistry
Glycoproteins / metabolism*
Hydrolysis
Swine

Substances

Glycoproteins
purple acid phosphatase
Acid Phosphatase