Patrick Siang Lin Lim scite author profile

Fluorescent proteins (FP) are frequently used for studying proteins inside cells. In advanced fluorescence microscopy, FPs can report on additional intracellular variables. One variable is the local density near FPs, which can be useful in studying densities within cellular bio-condensates. Here, we show that a reduction in fluorescence lifetimes of common monomeric FPs reports increased levels of local densities. We demonstrate the use of this fluorescence-based variable to report the distribution of local densities within heterochromatin protein 1α (HP1α) in mouse embryonic stem cells (ESCs), before and after early differentiation. We find that local densities within HP1α condensates in pluripotent ESCs are heterogeneous and cannot be explained by a single liquid phase. Early differentiation, however, induces a change towards a more homogeneous distribution of local densities, which can be explained as a liquid-like phase. In conclusion, we provide a fluorescence-based method to report increased local densities and apply it to distinguish between homogeneous and heterogeneous local densities within bio-condensates.

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Organization of the Pluripotent Genome

Lim

Meshorer

2020

Cold Spring Harb Perspect Biol

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Dppa2 and Dppa4 safeguard bivalent chromatin in order to establish a pluripotent epigenome

Lim

Meshorer

2020

Nat Struct Mol Biol

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Fluorescent protein lifetimes report increased local densities and phases of nuclear condensates during embryonic stem cell differentiation

Joron

Viegas

Haas-Neill

et al. 2023

Preprint

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Fluorescent proteins (FP) have revolutionized biology, and are frequently used for studying proteins inside cells. In advanced fluorescence microscopy, FPs might report on additional intracellular variables. One potential variable could be the local density near FPs, which can be useful in studying densities within cellular bio-condensates. Here we show that a reduction in fluorescence lifetimes of common monomeric FPs can report increased levels of local densities. We demonstrate the use of this fluorescence-based variable to report the distribution of local densities within heterochromatin protein 1α (HP1α) in mouse embryonic stem cells (ESCs), before and after early differentiation. We find that local densities within HP1α condensates in pluripotent ESCs are heterogeneous and cannot be explained by a single liquid phase. Early differentiation, however, induces a change towards a more homogeneous distribution of local densities, which can be explained as a liquid-like phase. In conclusion, we provide a fluorescence-based method to report increased local densities and apply it to distinguish between homogeneous and heterogeneous local densities within bio-condensates.

show abstract

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