Abstract
The CTR1 gene of Saccharomyces cerevisiae encodes a protein required for high affinity copper uptake. The protein is expressed on the plasma membrane, is heavily glycosylated with O-linkages, and exists as an oligomer in vivo. The transcript abundance is strongly regulated by copper availability, being induced by copper deprivation and repressed by copper excess. Regulation occurs at very low, nontoxic levels of available copper and is independent of ACE1, the trans-inducer of yeast metallothionein. Expression of Ctr1p is limiting for copper uptake, since overexpression from a 2 mu high copy number plasmid increases copper uptake. Mutations in CTR1 result in altered cellular responses to extracellular copper, demonstrating a physiologic role for CTR1 in the delivery of copper to the cytosol. A copper-dependent reporter gene construct, CUP1-lacZ, is not expressed in CTR1 mutants to the same level as in wild-type strains, and Cu,Zn superoxide dismutase activity is deficient in these mutants. The growth arrest that occurs in CTR1 mutants grown aerobically in copper-deficient media is attributable to the defect in Cu,Zn superoxide dismutase activity.
Highlights
The CTRl gene of Saccharomyces cereuisieanecodes a tion oxidases, such as ascorbate oxidase, laccase, and ceruloprotein required for high affinity copper uptake
The transcript abundanceis strongly regulated ferrous iron uptake in the CTRl mutants but not the FET3 by copper availability,being induced by copper depri- mutants is corrected by growth in thepresence of high concenvation and repressed by copper excess
Expression ofCtrlp is limiting for copper with copper, which in turn is requiredfor ferrous iron uptake
Summary
Dancis et al (1994) Askwith et al (1994) Dancis et al (1990) Thiele (1988) Hamer (1986) Gralla and Kosman (1992). In this paper we extend our understanding of this unique protein by: 1) beginning its biochemical characterization, 2) demonstrating the homeostatic regulation of the CTRl transcript by copper via a mechanism independent of ACEl,and 3) providing evidence that the delivery of copper to the cytosol is, mediated by the expression of CTRl
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