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A single copy system to challenge cell fate highlights robustness of differentiated cells in C. elegans. A single copy system to challenge cell fate highlights.

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Presentation on theme: "A single copy system to challenge cell fate highlights robustness of differentiated cells in C. elegans. A single copy system to challenge cell fate highlights."— Presentation transcript:

1 A single copy system to challenge cell fate highlights robustness of differentiated cells in C. elegans. A single copy system to challenge cell fate highlights robustness of differentiated cells in C. elegans. (A) Single-cell readout cellular plasticity sensor. Cell fate–specifying transcription factors hlh-1 (MyoD homolog, inducing muscle fate) or end-1 (GATA-1 homolog, inducing intestinal fate) are induced by HS. Transcription factor ORFs are placed upstream of a trans-spliced mCherry ORF, providing a fluorescent readout. A cell fate marker (H2B::GFP) for muscle fate is integrated elsewhere in the genome. All constructs are single-copy insertions. Upon HS, red cytoplasmic fluorescence reports induction whereas green fluorescence reports muscle differentiation. (B) Muscle cell fate induction in early embryos (∼35 cell stage), DIC, and red and green fluorescence channels before and 6 h post-induction, in a control strain and upon HLH-1 ectopic expression. Upon HLH-1 expression, embryos arrest development and a number of cells express the muscle-specific marker (arrows). Scale 10 μm. (C) Brightfield images of worms ectopically expressing either mCherry or hlh-1 24 and 48 h post-induction. Bar 25 μm. (D) Number of GFP::H2B–positive cells of worms in (C). 24 h post-induction. (E) Upper left: GFP::H2B signal in an animal ectopically expressing HLH-1, 24 h post-induction (z maximal intensity projection). Bar 100 μm. Upper right: tail region; The additional green fluorescent nucleus is indicated with an arrow. Bar 10 μm. Lower left: DIC/green fluorescence overlay of the tail of an animal of the same strain, imaged 24 h post-induction of HLH-1. Bar 10 μm. Dashed line: gut, white arrow: anal sphincter cell expressing the muscle marker. Lower right: tail region, imaged 24 h post–HLH-1 induction in a strain carrying a cytoplasmic red muscle marker (myo-3p::RFP). Bar 10 μm. The cytoplasmic RFP signal outlines the characteristic saddle-like shape of the anal sphincter cell. Francesca Coraggio et al. LSA 2019;2:e © 2018 Coraggio et al.

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