| Literature DB >> 35978570 |
Théo Aspert1,2,3,4, Basile Jacquel1,2,3,4, Gilles Charvin1,2,3,4.
Abstract
Microorganisms have evolved adaptive strategies to respond to the autonomous degradation of their environment. Indeed, a growing culture progressively exhausts nutrients from its media and modifies its composition. Yet, how single cells react to these modifications remains difficult to study since it requires population-scale growth experiments to allow cell proliferation to have a collective impact on the environment, while monitoring the same individuals exposed to this environment for days. For this purpose, we have previously described an integrated microfluidic pipeline, based on continuous separation of the cells from the media and subsequent perfusion of the filtered media in an observation chamber containing isolated single cells. Here, we provide a detailed protocol to implement this methodology, including the setting up of the microfluidic system and the processing of timelapse images.Entities:
Keywords: Cell fate heterogeneities ; Cytosolic pH ; Diauxic shift ; Metabolic state ; Microfluidic-based time-lapse microscopy ; Quiescence entry ; Single-cell ecology
Year: 2022 PMID: 35978570 PMCID: PMC9350916 DOI: 10.21769/BioProtoc.4470
Source DB: PubMed Journal: Bio Protoc ISSN: 2331-8325