Login / Signup

Monitoring bacterial spore metabolic activity using heavy water-induced Raman peak evolution.

Rasmus ÖbergTobias DahlbergDmitry MalyshevMagnus Andersson
Published in: The Analyst (2023)
Endospore-forming bacteria are associated with food spoilage, food poisoning, and infection in hospitals. Therefore, methods to monitor spore metabolic activity and verify sterilization are of great interest. However, current methods for tracking metabolic activity are time-consuming and resource intensive. This work investigates isotope labeling and Raman microscopy as a low-cost rapid alternative. Specifically, we monitor the Raman spectrum of enterotoxic B. cereus spores undergoing germination and cell division in D 2 O-infused broth. During germination and cell division, water is metabolized and deuterium from the broth is incorporated into proteins and lipids, resulting in the appearance of a Raman peak related to C-D bonds at 2190 cm -1 . We find that a significant C-D peak appears after 2 h of incubation at 37 °C. Further, we found that the peak appearance coincides with the observed first cell division indicating little metabolic activity during germination. Lastly, the germination and cell growth rate of spores were not affected by adding 30% heavy water to the broth. This shows the potential for real-time monitoring of metabolic activity from a bacterial spore to a dividing cell. In conclusion, our work proposes tracking the evolution of the C-D Raman peak in spores incubated with D 2 O-infused broth as an effective and time-, and cost-efficient method to monitor the outgrowth of a spore population, simultaneously allowing us to track for how long the bacteria have grown and divided.
Keyphrases
  • single cell
  • cell therapy
  • healthcare
  • low cost
  • bacillus subtilis
  • label free
  • risk assessment
  • high resolution
  • single molecule
  • high throughput
  • climate change
  • stress induced
  • high speed
  • liquid chromatography