Autor: |
Rad, Massoud Ramezani, Phan, Huan L., Kirchrath, L., Tan, Philip K., Kirchhausen, Tomas, Hollenberg, Cornelius P., Payne, Gregory S. |
Zdroj: |
Journal of Cell Science; April 1995, Vol. 108 Issue: 4 p1605-1615, 11p |
Abstrakt: |
Clathrin-coated vesicles mediate selective intracellular protein traffic from the plasma membrane and the trans-Golgi network. At these sites, clathrin-associated protein (AP) complexes have been implicated in both clathrin coat assembly and collection of cargo into nascent vesicles. We have found a gene on yeast chromosome XI that encodes a homologue of the mammalian AP β subunits. Disruptions of this gene, APL2, and a previously identified β homologue, APL1, have been engineered in cells expressing wild-type (CHC1) or temperature sensitive (chc1-ts) alleles of the clathrin heavy chain gene. APL1 or APL2 disruptions (apl1Δ or apl2Δ) yield no discernable phenotypes in CHC1 strains, indicating that the Apl proteins are not essential for clathrin function. However, the apl2Δ, but not the apl1Δ, allele enhances the growth and α-factor pheromone maturation defects of chc1-ts cells. Disruption of APL2 also partially suppresses the vacuolar sorting defect that occurs in chc1-ts cells immediately after imposition of the non-permissive temperature. These Golgi-specific effects of apl2Δ in chc1-ts cells provide evidence that Apl2p is a component of an AP complex that interacts with clathrin at the Golgi apparatus. |
Databáze: |
Supplemental Index |
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