Transport activity-dependent intracellular sorting of the yeast general amino acid permease

Author(s)

Cain, Natalie Elaine; Kaiser, Chris

Abstract

Intracellular trafficking of the general amino acid permease, Gap1p, of Saccharomyces cerevisiae is regulated by amino acid abundance. When amino acids are scarce Gap1p is sorted to the plasma membrane, whereas when amino acids are abundant Gap1p is sorted from the trans-Golgi through the multivesicular endosome (MVE) and to the vacuole. Here we test the hypothesis that Gap1p itself is the sensor of amino acid abundance by examining the trafficking of Gap1p mutants with altered substrate specificity and transport activity. We show that trafficking of mutant Gap1pA297V, which does not transport basic amino acids, is also not regulated by these amino acids. Furthermore, we have identified a catalytically inactive mutant that does not respond to complex amino acid mixtures and constitutively sorts Gap1p to the plasma membrane. Previously we showed that amino acids govern the propensity of Gap1p to recycle from the MVE to the plasma membrane. Here we propose that in the presence of substrate the steady-state conformation of Gap1p shifts to a state that is unable to be recycled from the MVE. These results indicate a parsimonious regulatory mechanism by which Gap1p senses its transport substrates to set an appropriate level of transporter activity at the cell surface.

Date issued

2011-06

URI

http://hdl.handle.net/1721.1/65651

Department

Massachusetts Institute of Technology. Department of Biology

Journal

Molecular Biology of the Cell

Publisher

American Society for Cell Biology

Citation

Cain, N. E., and C. A. Kaiser. “Transport activity-dependent intracellular sorting of the yeast general amino acid permease.” Molecular Biology of the Cell 22 (2011): 1919-1929.

Version: Final published version

ISSN

1059-1524

1939-4586