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Recombination-induced tag exchange (RITE) cassette series to monitor protein dynamics in Saccharomyces cerevisiae.

Marit Terweij ,
Tibor van Welsem ,
Sjoerd van Deventer ,
Kitty F Verzijlbergen ,
Victoria Menendez-Benito ,
David Ontoso ,
Pedro San-Segundo ,
Jacques Neefjes ,
Fred van Leeuwen

Abstract

Proteins are not static entities. They are highly mobile, and their steady-state levels are achieved by a balance between ongoing synthesis and degradation. The dynamic properties of a protein can have important consequences for its function. For example, when a protein is degraded and replaced by a newly synthesized one, posttranslational modifications are lost and need to be reincorporated in the new molecules. Protein stability and mobility are also relevant for the duplication of macromolecular structures or organelles, which involves coordination of protein inheritance with the synthesis and assembly of newly synthesized proteins. To measure protein dynamics, we recently developed a genetic pulse-chase assay called recombination-induced tag exchange (RITE). RITE has been successfully used in Saccharomyces cerevisiae to measure turnover and inheritance of histone proteins, to study changes in posttranslational modifications on aging proteins, and to visualize the spatiotemporal inheritance of protein complexes and organelles in dividing cells. Here we describe a series of successful RITE cassettes that are designed for biochemical analyses, genomics studies, as well as single cell fluorescence applications. Importantly, the genetic nature and the stability of the tag switch offer the unique possibility to combine RITE with high-throughput screening for protein dynamics mutants and mechanisms. The RITE cassettes are widely applicable, modular by design, and can therefore be easily adapted for use in other cell types or organisms.

More about this publication

G3 (Bethesda, Md.)

Volume 3
Issue nr. 8
Pages 1261-72
Publication date 07-08-2013

Full text links

Publisher website (DOI) 10.1534/g3.113.006213
Europe PubMed Central 23708297
Pubmed 23708297

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