Plants contain two SCO proteins that are differentially involved in cytochrome c oxidase function and copper and redox homeostasis

ATTALLAH, CAROLINA V.; WELCHEN, ELINA; MARTIN, ANA P.; SPINELLI, SILVANA V.; BONNARD, GERALDINE; PALATNIK, JAVIER F.; GONZALEZ, DANIEL H.

JOURNAL OF EXPERIMENTAL BOTANY

OXFORD UNIV PRESS

Lugar: Oxford; Año: 2011 vol. 62 p. 4281 - 4294

0022-0957

Two Arabidopsis thaliana genes (HCC1 and HCC2), resulting from a duplication that took place before the emergence of flowering plants, encode proteins with homology to the SCO proteins involved in copper insertion during cytochrome c oxidase (COX) assembly in other organisms. Heterozygote HCC1 mutant plants produce 25% abnormal seeds with defective embryos arrested at the heart or torpedo stage. These embryos lack COX activity, suggesting that the requirement of HCC1 during early stages of plant development is related with its COX assembly function. Homozygote HCC2 mutant plants develop normally and do not show changes in COX2 levels. These plants display increased sensitivity of root growth to increased copper and higher expression of miR398 and other genes that respond to copper limitation, in spite of the fact that they have a higher copper content than wild-type. HCC2 mutant plants also show increased expression of stress-responsive genes. The results suggest that HCC1 is the protein involved in COX biogenesis and that HCC2, that lacks the cysteines and histidine putatively involved in copper binding, functions in copper sensing and redox homeostasis. In addition, plants that overexpress HCC1 have an altered response of root elongation to changes in copper in the growth medium and increased expression of two low-copper responsive genes, suggesting that HCC1 may also have a role in copper homeostasis.