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  • A mutational study in the transmembrane domain of Ccc2p, the yeast Cu(I)-ATPase, shows different roles for each Cys-Pro-Cys cysteine.

A mutational study in the transmembrane domain of Ccc2p, the yeast Cu(I)-ATPase, shows different roles for each Cys-Pro-Cys cysteine.

The Journal of biological chemistry (2004-04-14)
Jennifer Lowe, Adalberto Vieyra, Patrice Catty, Florent Guillain, Elisabeth Mintz, Martine Cuillel
ABSTRACT

Ccc2p is homologous to the human Menkes and Wilson copper ATPases and is herein studied as a model for human copper transport. Most studies to date have sought to understand how mutations in the human Menkes or Wilson genes impair copper homeostasis and induce disease. Here we analyze whether eight conserved amino acids of the transmembrane domain are important for copper transport. Wild-type Ccc2p and variants were expressed in a ccc2-Delta yeast strain to check whether they were able to restore copper transport by complementation. Wild-type Ccc2p and variants were also expressed in Sf9 cells using baculovirus to study their enzymatic properties on membrane preparations. The latter system allowed us to measure a copper-activated ATPase activity of about 20 nmol/mg/min for the wild-type Ccc2p at 37 degrees C. None of the variants was as efficient as the wild type in restoring copper homeostasis. The mutation of each cysteine of the (583)CPC(585) motif into a serine resulted in nonfunctional proteins that could not restore copper homeostasis in yeast and had no ATPase activity. Phosphorylation by ATP was still possible with the C583S variant, although it was not possible with the C585S variant, suggesting that the cysteines of the CPC motif have a different role in copper transport. Cys(583) would be necessary for copper dissociation and/or enzyme dephosphorylation and Cys(585) would be necessary for ATP phosphorylation, suggesting a role in copper binding.

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Sigma-Aldrich
Bathocuproinedisulfonic acid disodium salt, for spectrophotometric det. of Cu, Fe