Abstract
A current metagenomics focus is to interpret and transform collected genomic data into biological information. By combining structural, functional and genomic data we have assessed a novel bacterial protein selected from a carbohydrate-related activity screen in a microbial metagenomic library from Capra hircus (domestic goat) gut. This uncharacterized protein was predicted as a bacterial cell wall-modifying enzyme (CWME) and shown to contain four domains: an N-terminal, a cysteine protease, a peptidoglycan-binding and an SH3 bacterial domain. We successfully cloned, expressed and purified this putative cysteine protease (PCP), which presented autoproteolytic activity and inhibition by protease inhibitors. We observed cell wall hydrolytic activity and ampicillin binding capacity, a characteristic of most bacterial CWME. Fluorimetric binding analysis yielded a Kb of 1.8 × 105 M−1 for ampicillin. Small-angle X-ray scattering (SAXS) showed a maximum particle dimension of 95 Å with a real-space Rg of 28.35 Å. The elongated molecular envelope corroborates the dynamic light scattering (DLS) estimated size. Furthermore, homology modeling and SAXS allowed the construction of a model that explains the stability and secondary structural changes observed by circular dichroism (CD). In short, we report a novel cell wall-modifying autoproteolytic PCP with insight into its biochemical, biophysical and structural features.
Highlights
Peptidoglycan (PG) is a rigid biopolymer composed of alternating N-acetylglucosamine (NAG) and N-acetylmuramate (NAM) units linked by 1–4 glycosydic bonds between the two hexoses
We present a novel putative cysteine protease (PCP) selected from the metagenome of Capra hircus (Chi) rumen, hereinafter denoted as PCP
PCP was purified through Ni-affinity chromatography after elution with 180 mM imidazole followed by size-exclusion chromatography (SEC)
Summary
Peptidoglycan (PG) is a rigid biopolymer composed of alternating N-acetylglucosamine (NAG) and N-acetylmuramate (NAM) units linked by 1–4 glycosydic bonds between the two hexoses. In 1994, Ghuysen et al showed that PG hydrolases expressed by Clostridia and Bacillus strains had small conserved sequences that were signatures of proteins involved in cell wall binding[40]. These signatures are indicators of PG-binding domains (PGBD), which are commonly found in the Protein Data Bank associated with cell wall degradation enzymes[41,42,43]. We present a novel putative cysteine protease (PCP) selected from the metagenome of Capra hircus (Chi) rumen, hereinafter denoted as PCP This novel protein carries an uncharacterized N-terminal domain, a cysteine protease/CHAP domain, a PG binding domain and a bacterial SH3 domain. Solution state small-angle X-ray scattering (SAXS) studies of the protein enabled construction of a low-resolution, three-dimensional homology model of PCP
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