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Cell state transitions: definitions and challenges.

Carla Mulas1, Agathe Chaigne2, Austin Smith3

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|December 21, 2021
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Summary
This summary is machine-generated.

Understanding cell state transitions is key in biology. This summary highlights workshop discussions on models and systems advancing our knowledge of how cells change their state dynamically.

Keywords:
Cell state transitionsDefinition of cell statesHeterogeneityModelling

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Area of Science:

  • Cell Biology
  • Systems Biology

Background:

  • Cell state dynamics involve complex changes in gene expression, protein modification, morphology, and behavior.
  • Simultaneous dynamic measurement of all cellular parameters remains a technical challenge.

Purpose of the Study:

  • To summarize key insights from 'Cell State Transitions: Approaches, Experimental Systems and Models' workshop.
  • To explore methods for comprehending cell state transitions despite measurement limitations.

Main Methods:

  • Discussion synthesis from a virtual workshop.
  • Presentation of examples of cell state transitions.
  • Description of models and experimental systems.

Main Results:

  • Identified key parameters defining cell state.
  • Highlighted challenges in simultaneous dynamic measurement of cellular parameters.
  • Showcased diverse approaches to studying cell state transitions.

Conclusions:

  • Workshop discussions provided valuable perspectives on cell state dynamics.
  • Models and systems are crucial for advancing the understanding of cell state rewiring.
  • Further research is needed to integrate multi-parameter measurements for a holistic view of cell transitions.