| RRC ID |
85427
|
| Author |
Sakai T, Minomo N, Sakaguchi T, Tahara YO, Miyata M, Nakamura T.
|
| Title |
Palmitoylation of the fission yeast protein Isp3 is essential for formation of the outermost layer of the spore wall.
|
| Journal |
Biosci Biotechnol Biochem
|
| Abstract |
Fission yeast spores possess strong resistance to environmental stresses, largely due to the outermost proteinaceous "Isp3 layer", which comprises Isp3 protein. Isp3 is palmitoylated and its localization to the spore periphery is impaired in mutants lacking palmitoyltransferase; however, the precise role of Isp3 palmitoylation remains unclear. Here, we found that Isp3-GFP was expressed at wild-type levels in forming spores in mug142∆ cells lacking the palmitoyltransferase catalytic unit; thus, lack of palmitoylation did not reduce Isp3 protein stability. Next, we identified cysteine 7 as the key palmitoylation site essential for Isp3 localization to the spore periphery. Electron microscopy revealed that the Isp3 fibrillar layer was absent in both mug142Δ and isp3-C7S spores. Additionally, the isp3-C7S spores displayed increased sensitivity to alcohol stress, similar to isp3∆ spores. Collectively, these results demonstrate that palmitoylation of Isp3 is essential for relocation of Isp3 to the spore surface and assembly of the Isp3 layer.
|
| Published |
2025-7-16
|
| DOI |
10.1093/bbb/zbaf104
|
| PII |
8203304
|
| PMID |
40668054
|
| IF |
1.516
|
| Resource |
| Yeast |
FY17852
FY17854
FY17858
FY17862
FY21966
FY21365 |
