Abstract
The metallo--lactamase IMP-1 features a flexible loop near the active site that assumes different conformations in single crystal structures, which may assist in substrate binding and enzymatic activity. To probe the position of this loop, we labelled the tryptophan residues of IMP-1 with 7-C-indole and the protein with lanthanoid tags at three different sites. The magnetic susceptibility anisotropy () tensors were determined by measuring pseudocontact shifts (PCSs) of backbone amide protons. The tensors were subsequently used to identify the atomic coordinates of the tryptophan side chains in the protein. The PCSs were sufficient to determine the location of Trp28, which is in the active site loop targeted by our experiments, with high accuracy. Its average atomic coordinates showed barely significant changes in response to the inhibitor captopril. It was found that localisation spaces could be defined with better accuracy by including only the PCSs of a single paramagnetic lanthanoid ion for each tag and tagging site. The effect was attributed to the shallow angle with which PCS isosurfaces tend to intersect if generated by tags and tagging sites that are identical except for the paramagnetic lanthanoid ion.
Highlights
The metallo-β-lactamase IMP-1 is an enzyme that hydrolyses β-lactams, conferring penicillin resistance to bacteria
The results show that the localisation spaces defined by the tryptophan pseudocontact shifts (PCSs) fully agree with previously determined crystal structures of IMP-1 for all tryptophan residues
These samples were produced by cell-free protein synthesis in the presence of 7-13C indole, deuterated except at the 7 position, with the omission of tryptophan, using a recently established protocol (Maleckis et al, 2021)
Summary
The metallo-β-lactamase IMP-1 is an enzyme that hydrolyses β-lactams, conferring penicillin resistance to bacteria. First identified 30 years ago in the Gram-negative bacteria in the early 1990s from Pseudomonas aeruginosa and Serratia marcescens (Bush, 2013), IMP-1 has become a serious clinical problem due to horizontal gene transfer by a highly mobile gene (blaIMP-1) located on an integron (Arakawa et al, 1995), as the blaIMP-1 gene has been detected in isolates of Klebsiella pneumoniae, Pseudomonas putida, Alcaligenes xylosoxidans, Acinetobacter junii, Providencia rettgeri, Acinetobacter baumannii and Enterobacter aerogenes (Ito et al, 1995; Laraki et al, 1999a; Watanabe et al, 1991). IMP-1 confers resistance to recent generations of carbapenems and extended-spectrum cephalosporins (Laraki et al, 1999b; Bush, 2010; van Duin et al, 2013). Orton et al.: Localising individual atoms of tryptophan side chains
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