Setting of graded levels of a protein in yeast by a t-degron technique as applied to phosphoglycerate mutase

Setting of graded levels of a protein in yeast by a t-degron technique as applied to phosphoglycerate mutase

Abstract Background Setting of graded levels of a protein for in vivo studies by controlled gene expression has inconveniences, and we here explore the use of the t-degron technique instead. Results In a yeast t-degron (ubiquitin-argDHFRts)- phosphoglycerate mutase (GPM1) fusion strain, increasing p...

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Bibliographic Details
Main Authors: Katja Heidrich, Dan G Fraenkel
Format: Article
Language:English
Published: BMC 2002-07-01
Series:BMC Genetics
Subjects:
Phosphoglycerate Mutase
NdeI Site
Require Protein Synthesis
Difco Yeast Extract
CUP1 Promoter
Online Access:https://doi.org/10.1186/1471-2156-3-39
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Summary:Abstract Background Setting of graded levels of a protein for in vivo studies by controlled gene expression has inconveniences, and we here explore the use of the t-degron technique instead. Results In a yeast t-degron (ubiquitin-argDHFRts)- phosphoglycerate mutase (GPM1) fusion strain, increasing periods of exposure to the non-permissive temperature 37°C, even in the presence of cycloheximide, gave decreasing function, as assessed at 23°C in vivo by glucose metabolism and confirmed by immunoblot. Conclusion An ideal system would set a range of lower levels of a protein, do so without compensating protein synthesis, and give stable activity for in vitro comparisons. Although the first two aims appear obtainable, the third was not in this example of the application, limiting its uses for some but not all purposes.
ISSN:1471-2156

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