AI Article Synopsis
- Co-expressing a normal version of a protein domain (NBD1) can help restore some functionality to the mutated Yor1p by replacing the faulty part, although this doesn't correct its transport to the cell surface.
- The study emphasizes the potential for targeting dysfunctional protein domains to enhance the activity of ABC transporters, indicating that rescue depends on specific molecular interactions between the normal and abnormal domains.
Article Abstract
ATP-binding cassette (ABC) transporters are integral membrane proteins that couple ATP binding/hydrolysis with the transport of hydrophilic substrates across lipid barriers. Deletion of Phe-670 in the first nucleotide-binding domain (NBD1) of the yeast ABC transporter, Yor1p, perturbs interdomain associations, reduces functionality, and hinders proper transport to the plasma membrane. Functionality of Yor1p-ΔF was restored upon co-expression of a peptide containing wild-type NBD1. To gain insight into the biogenesis of this important class of proteins, we defined the requirements for this rescue. We show that a misfolding lesion in NBD1 of the full-length protein is a prerequisite for functional rescue by exogenous NBD1, which is mediated by physical replacement of the dysfunctional domain by the soluble NBD1. This association does not restore trafficking of Yor1p-ΔF but instead confers catalytic activity to the small population of Yor1p-ΔF that escapes to the plasma membrane. An important coupling between the exogenous NBD1 and ICL4 within full-length aberrant Yor1p-ΔF is required for functional rescue but not for the physical interaction between the two polypeptides. Together, our genetic and biochemical data reveal that it is possible to modulate activity of ABC transporters by physically replacing dysfunctional domains.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2975245 | PMC |
| http://dx.doi.org/10.1074/jbc.M110.160523 | DOI Listing |
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