Abstract
The plasma membrane ATP-binding cassette (ABC) transporter Yor1p mediates oligomycin resistance in Saccharomyces cerevisiae. Its protein sequence places it in the multidrug resistance protein/cystic fibrosis transmembrane conductance regulator subfamily of ABC transporters. A key regulatory step in the biogenesis of this family of ABC transporter proteins is at the level of transport from the endoplasmic reticulum (ER) on through the secretory pathway. To explore the protein sequence requirements for Yor1p to move from the ER to its site of function at the plasma membrane, a series of truncation and alanine replacement mutations were constructed in Yor1p. This analysis detected two sequence motifs similar to the DXE element that has recently been found in other proteins that exit the ER. Loss of the N-terminal DXE element eliminated function of the protein, whereas loss of the C-terminal element only slightly reduced function of the resulting mutant Yor1p. Strikingly, although both of the single mutant proteins were stable, production of the double mutant caused dramatic destabilization of Yor1p. These data suggest that this large polytopic membrane protein requires multiple signals for normal forward trafficking, and elimination of this information may cause the mutant protein to be transferred to a degradative fate.
Highlights
ATP-binding cassette (ABC)1 transporter proteins mediate energy-dependent transport of substrates across cell membranes [1]
Because the wild-type protein is degraded by the vacuole, it is likely this signal is due to fluorescence of Yor1p-GFP molecules undergoing degradation
These results show that fusion of a wild-type or mutant form of Yor1p to GFP produces a chimera that faithfully reproduces the behavior of the untagged protein
Summary
ATP-binding cassette (ABC)1 transporter proteins mediate energy-dependent transport of substrates across cell membranes [1]. Alanine substitution mutagenesis identified residues important for normal expression and function of the protein, namely the ER localization defect was observed for mutations in a diacidic DXE sequence (X is any amino acid) in the N terminus of Yor1p.
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