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Assessing CaDPA levels, metabolic activity, and spore detection through deuterium labeling.

Rasmus ÖbergTimir Baran SilC André OhlinMagnus AnderssonDmitry Malyshev
Published in: The Analyst (2024)
Many strains among spore-forming bacteria species are associated with food spoilage, foodborne disease, and hospital-acquired infections. Understanding the impact of environmental conditions and decontamination techniques on the metabolic activity, viability, and biomarkers of these spores is crucial for combatting them. To distinguish and track spores and to understand metabolic mechanisms, spores must be labeled. Staining or genetic modification are current methods for this, however, these methods can be time-consuming, and affect the viability and function of spore samples. In this work, we investigate the use of heavy water for permanent isotope labeling of spores and Raman spectroscopy for tracking sporulation/germination mechanisms. We also discuss the potential of this method in observing decontamination. We find that steady-state deuterium levels in the spore are achieved after only ∼48 h of incubation with 30% D 2 O-infused broth and sporulation, generating Raman peaks at cell silent region of 2200 and 2300 cm -1 . These deuterium levels then decrease rapidly upon spore germination in non-deuterated media. We further find that unlike live spores, spores inactivated using various methods do not lose these Raman peaks upon incubation in growth media, suggesting these peaks may be used to indicate the viability of a spore sample. We further observe several Raman peaks exclusive to deuterated DPA, a spore-specific chemical biomarker, at e.g. 988 and 2300 cm -1 , which can be used to track underlying changes in spores involving DPA. In conclusion, permanent spore labeling using deuterium offers a robust and non-invasive way of labeling bacterial spores for marking, viability determination, and characterising spore activity.
Keyphrases
  • bacillus subtilis
  • raman spectroscopy
  • healthcare
  • human health
  • gene expression
  • genome wide
  • high resolution
  • copy number
  • mass spectrometry
  • solid phase extraction
  • molecularly imprinted
  • flow cytometry