Understanding how genetically encoded tags affect phase separation by Heterochromatin Protein HP1α

Zhou, Ziling (Kate); Narlikar, Geeta J.

doi:10.1101/2023.12.04.569983

2023

DOI: 10.1101/2023.12.04.569983

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Understanding how genetically encoded tags affect phase separation by Heterochromatin Protein HP1α

Ziling (Kate) Zhou,

Geeta J. Narlikar

Abstract: Liquid-liquid phase separation (LLPS) is driven by weak multi-valent interactions. Such interactions can result in the formation of puncta in cells and dropletsin vitro. The heterochromatin protein HP1α forms droplets with chromatinin vitroand is found in puncta in cells. A common approach to visualize the dynamics of HP1α in cells is to genetically encode fluorescent tags on the protein. HP1α modified with tags such as GFP has been shown to localize to dynamic punctain vivo. However, whether tagged HP1α retai… Show more

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2024

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Cited by 2 publications

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Tag with Caution — How protein tagging influences the formation of condensates

Dörner,

Gut,

Overwijn

et al. 2024

Preprint

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Fluorescent proteins and peptide tags are essential tools in cellular biology, but can alter the biochemical properties of target proteins. Biomolecular condensates, which have emerged as key principles of cellular organization, are suggested to provide robustness to cells, yet they can also respond sensitively to small changes in environmental conditions - or tagging of their components, as our findings suggest. Here, we investigated the effects of sixteen widely used tags on condensate formation in various model organisms, in vitro, in cells and by computational modelling. We find that tagging strongly influenced condensation for some proteins, while others remained unaffected. Effects varied, with some tags enhancing and others decreasing condensation, and depended on the protein being tagged. Coarse-grained simulations suggest that the charge of the fluorescent protein tags is a critical factor modulating condensation behavior. Together, our results underscore the importance of rigorous experimental design and interpretation in condensate experiments.

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Tag with Caution — How protein tagging influences the formation of condensates

Dörner,

Gut,

Overwijn

et al. 2024

Preprint

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The dark side of fluorescent protein tagging – the impact of protein tags on biomolecular condensation

Fatti,

Khawaja,

Weis

2024

Preprint

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Biomolecular condensation has emerged as an important mechanism to control various cellular processes through the formation of membraneless organelles. Fluorescent protein tags have been extensively used to study the formation and the properties of condensates in vitro and in vivo, but there is evidence that tags may perturb the condensation properties of proteins. In this study, we carefully assess the effects of protein tags on the yeast DEAD-box ATPase Dhh1, a central regulator of processing bodies (P-bodies), which are biomolecular condensates involved in mRNA metabolism. We show that fluorescent tags as well as a poly-histidine tag greatly affect Dhh1 condensation in vitro and lead to condensates with different dynamic properties. Tagging of Dhh1 with various fluorescent proteins in vivo alters the number of P-bodies upon glucose starvation and some tags even show constitutive P-bodies in non-stressed cells. These data raise concerns about the accuracy of tagged protein condensation experiments, highlighting the need for caution when interpreting the results.

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Understanding how genetically encoded tags affect phase separation by Heterochromatin Protein HP1α

Cited by 2 publications

References 27 publications

Tag with Caution — How protein tagging influences the formation of condensates

Tag with Caution — How protein tagging influences the formation of condensates

The dark side of fluorescent protein tagging – the impact of protein tags on biomolecular condensation

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