AI Article Synopsis
- Scientists looked at yeast cells to understand how proteins are made and kept in the endoplasmic reticulum (ER), a part of the cell.
- They found 87 types of yeast that were not good at keeping a special protein called Kar2p inside the ER, which helps in making other proteins.
- Some of the new genes they discovered are important for making sure proteins are modified correctly and that important proteins stay in the ER, indicating that changes in DNA can affect protein storage in the cell.
Article Abstract
To gain new mechanistic insight into ER homeostasis and the biogenesis of secretory proteins, we screened a genomewide collection of yeast mutants for defective intracellular retention of the ER chaperone, Kar2p. We identified 87 Kar2p-secreting strains, including a number of known components in secretory protein modification and sorting. Further characterization of the 73 nonessential Kar2p retention mutants revealed roles for a number of novel gene products in protein glycosylation, GPI-anchor attachment, ER quality control, and retrieval of escaped ER residents. A subset of these mutants, required for ER retrieval, included the GET complex and two novel proteins that likely function similarly in membrane insertion of tail-anchored proteins. Finally, the variant histone, Htz1p, and its acetylation state seem to play an important role in maintaining ER retrieval pathways, suggesting a surprising link between chromatin remodeling and ER homeostasis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2710157 | PMC |
| http://dx.doi.org/10.1534/genetics.109.101105 | DOI Listing |
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