| Literature DB >> 29961259 |
Elvira Nikalayevich1,2, Nora Bouftas3,4, Katja Wassmann5,6.
Abstract
Separase proteolytically removes cohesin complexes from sister chromatid arms in meiosis I, which is essential for chromosome segregation. Regulation of separase activity is essential for proper cell cycle progression and correct chromosome segregation. Onset of endogenous separase activity has not yet been observed in live oocytes.We describe here a method for detecting separase activity in mouse oocytes in vivo. This method utilizes a previously described cleavage sensor made up of H2B-mCherry fused with Scc1(107-268 aa)-YFP. The cleavage sensor is loaded on the chromosomes through its H2B-tag, and the signal from both mCherry and YFP is visible. Upon separase activation the Scc1 fragment is cleaved and YFP dissociates from the chromosomes. The change in the ratio between mCherry and YFP fluorescence intensity is a readout of separase activity.Entities:
Keywords: Anaphase; Chromosome segregation; Cleavage sensor; Cohesin; Female meiosis; Live imaging; Oocyte; Scc1; Separase; Time lapse
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Year: 2018 PMID: 29961259 DOI: 10.1007/978-1-4939-8603-3_11
Source DB: PubMed Journal: Methods Mol Biol ISSN: 1064-3745