Resumen
The gastrointestinal bacterium Klebsiella (née Enterobacter) aerogenes expresses an endogenously generated, temperature-compensated circadian rhythm in swarming motility. We hypothesized that this rhythm may be synchronized/entrained in vivo by body temperature (TB). To determine entrainment, cultures expressing bioluminescence were exposed to temperature cycles of 1°C (35°C–36°C) or 3°C (34°C–37°C) in amplitude at periods (T-cycles) of T = 22, T = 24, or T = 28 h. Bacteria entrained to all T-cycles at both amplitudes and with stable phase relationships. A high-amplitude phase response curve (PRC) in response to 1-h pulses of 3°C temperature spike (34°C–37°C) at different circadian phases was constructed, revealing a Type-0 phase resetting paradigm. Furthermore, real-time bioluminescence imaging revealed a spatiotemporal pattern to the circadian rhythm. These data are consistent with the hypothesis that the K. aerogenes circadian clock entrains to its host via detection of and phase shifting to the daily pattern of TB.
| Idioma original | English |
|---|---|
| Páginas (desde-hasta) | 1202-1213 |
| Número de páginas | 12 |
| Publicación | iScience |
| Volumen | 19 |
| DOI | |
| Estado | Published - sept 27 2019 |
Nota bibliográfica
Publisher Copyright:© 2019 The Author(s)
Financiación
The Cassone lab is supported by NIH R01 GM118541 , HHMI Sustaining Excellence Award 52008116, and KSEF-3783-020 . The authors would like to thank Clifford Harpole for helpful discussion during the course of this research.
| Financiadores | Número del financiador |
|---|---|
| National Institutes of Health (NIH) | R01 GM118541 |
| Howard Hughes Medical Institute | 52008116, KSEF-3783-020 |
ASJC Scopus subject areas
- General