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A flow-cytometry-based pipeline for the rapid quantification of C2C12 cell differentiation.


ABSTRACT: The C2C12 cell line represents a simple in vitro model for cell differentiation. Here, we present a flow-cytometry-based pipeline to quantitate C2C12 cell differentiation based on myosin heavy-chain marker expression. We describe steps for cell seeding, transfection, drug treatment, differentiation, and labeling. We then detail procedures for flow cytometry acquisition and introduce the R script FlowFate for automated analysis, including the study of dose-dependent effects of GFP-tagged genes on differentiation. For complete details on the use and execution of this protocol, please refer to Chippalkatti et al. (2023).1.

SUBMITTER: Parisi B 

PROVIDER: S-EPMC10568640 | biostudies-literature | 2023 Oct

REPOSITORIES: biostudies-literature

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A flow-cytometry-based pipeline for the rapid quantification of C2C12 cell differentiation.

Parisi Bianca B   Sünnen Maxime M   Chippalkatti Rohan R   Abankwa Daniel Kwaku DK  

STAR protocols 20231010 4


The C2C12 cell line represents a simple in vitro model for cell differentiation. Here, we present a flow-cytometry-based pipeline to quantitate C2C12 cell differentiation based on myosin heavy-chain marker expression. We describe steps for cell seeding, transfection, drug treatment, differentiation, and labeling. We then detail procedures for flow cytometry acquisition and introduce the R script FlowFate for automated analysis, including the study of dose-dependent effects of GFP-tagged genes on  ...[more]

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