Toxin and phage production from pathogenic E. coli by antibiotic induction analyzed by chemical reduction, MALDI‐TOF‐TOF mass spectrometry and top‐down proteomic analysis

Author:

Fagerquist Clifton K.1ORCID,Shi Yanlin1,Dodd Claire E.1

Affiliation:

1. US Department of Agriculture Produce Safety & Microbiology, Western Regional Research Center, Agricultural Research Service Albany CA USA

Abstract

RationaleShiga toxin‐producing Escherichia coli (STEC) are an ongoing threat to public health and agriculture. Our laboratory has developed a rapid method for identification of Shiga toxin (Stx), bacteriophage, and host proteins produced from STEC. We demonstrate this technique on two genomically sequenced STEC O145:H28 strains linked to two major outbreaks of foodborne illness occurring in 2007 (Belgium) and 2010 (Arizona).MethodsOur approach was to induce expression of stx, prophage, and host genes by antibiotic exposure, chemically reduce samples, and identify protein biomarkers from unfractionated samples using matrix‐assisted laser desorption/ionization time‐of‐flight mass spectrometry, tandem mass spectrometry (MS/MS), and post‐source decay (PSD). The protein mass and prominent fragment ions were used to identify protein sequences using top‐down proteomic software developed in‐house. Prominent fragment ions are the result of polypeptide backbone cleavage resulting from the aspartic acid effect fragmentation mechanism.ResultsThe B‐subunit of Stx and acid‐stress proteins HdeA and HdeB were identified in both STEC strains in their intramolecular disulfide bond‐intact and reduced states. In addition, two cysteine‐containing phage tail proteins were detected and identified from the Arizona strain but only under reducing conditions, which suggests that bacteriophage complexes are bound by intermolecular disulfide bonds. An acyl carrier protein (ACP) and a phosphocarrier protein were also identified from the Belgium strain. ACP was post‐translationally modified with attachment of a phosphopantetheine linker at residue S36. The abundance of ACP (plus linker) was significantly increased on chemical reduction, suggesting the release of fatty acids bound to the ACP + linker at a thioester bond. MS/MS‐PSD revealed dissociative loss of the linker from the precursor ion as well as fragment ions with and without the attached linker consistent with its attachment at S36.ConclusionsThis study demonstrates the advantages of chemical reduction in facilitating the detection and top‐down identification of protein biomarkers of pathogenic bacteria.

Funder

Agricultural Research Service

Publisher

Wiley

Subject

Organic Chemistry,Spectroscopy,Analytical Chemistry

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