Use of Thermal and Emerging Non-Thermal Treatments Reveal Biomolecular and Morphological Changes in Pathogenic E. coli
Maxsueli Machado, Jelmir Craveiro Andrade, Eduardo Eustáquio de Souza Figueiredo, Carlos Adam Conte-Junior

TL;DR
This study examines how thermal and non-thermal treatments affect the molecular structure and appearance of pathogenic E. coli from animal-based foods.
Contribution
The study introduces a novel combination of thermal and non-thermal treatments to analyze biomolecular and morphological changes in E. coli.
Findings
Amide A and fatty acid regions showed the most significant absorbance changes in treated E. coli strains.
UVC and UVC+US treatments caused filamentous cell morphology, suggesting continued replication under stress.
Thermal and non-thermal treatments differentially impact biomolecular profiles and cell structure.
Abstract
(1) Background: We sought to explore the changes in the biomolecular profile and morphology of Pathogenic heat-resistant E. coli isolated from animal-based food. (2) Methods: Six strains underwent heat (60 °C for 6 min), ultrasound (US; 299 W), UVC (4950 mJ/cm2), and combined treatments (UVC+US and heat+UVC). Afterwards, biomolecular characterization across four spectral regions was evaluated by Fourier transform infrared (FT-IR) spectroscopy and analyzed by principal component analysis (PCA) for treated and non-treated strains (control group). These regions are fatty acids (3010–2800 cm−1), proteins and peptides (1700–1200 cm−1), carbohydrates (1200–900 cm−1), and amide A (3280–3120 cm−1). Additionally, treated and untreated strains were assessed for surface damage using scanning electron microscopy (SEM). (3) Results: Among all the regions studied, the amide A and fatty acids regions…
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Taxonomy
TopicsListeria monocytogenes in Food Safety · Microbial Inactivation Methods · Ultrasound and Hyperthermia Applications
