Sco proteins are present in all types of organisms, including the vast majority of eukaryotes and many prokaryotes. It is well established that Sco proteins in eukaryotes are involved in the assembly of the CuA cofactor of mitochondrial cytochrome c oxidase; however their precise role in this process has not yet been elucidated at the molecular level. In particular, some but not all eukaryotes including humans possess two Sco proteins whose individual functions remain unclear. There is evidence that eukaryotic Sco proteins are also implicated in other cellular processes such as redox signalling and regulation of copper homeostasis. The range of physiological functions of Sco proteins appears to be even wider in prokaryotes, where Sco-encoding genes have been duplicated many times during evolution. While some prokaryotic Sco proteins are required for the biosynthesis of cytochrome c oxidase, others are most likely to take part in different processes such as copper delivery to other enzymes and protection against oxidative stress. The detailed understanding of the multiplicity of roles ascribed to Sco proteins requires the identification of the subtle determinants that modulate the two properties central to their known and potential functions, i.e. copper binding and redox properties. In this review, we provide a comprehensive summary of the current knowledge on Sco proteins gained by genetic, structural and functional studies on both eukaryotic and prokaryotic homologues, and propose some hints to unveil the elusive molecular mechanisms underlying their functions. This review provides a comprehensive summary of the current knowledge on Sco proteins gained by genetic, structural and functional studies on both eukaryotic and prokaryotic homologues. Hints are given to identify the subtle determinants that modulate the copper binding and the redox properties of Sco proteins, and thus unveil the elusive molecular mechanisms underlying their cellular functions. © 2011 FEBS.
Seeking the determinants of the elusive functions of Sco proteins / I.Bertini; L.Banci; G.Cavallaro; S.Ciofi-Baffoni. - In: THE FEBS JOURNAL. - ISSN 1742-4658. - STAMPA. - 278(13):(2011), pp. 2244-2262. [10.1111/j.1742-4658.2011.08141.x]
Seeking the determinants of the elusive functions of Sco proteins
BERTINI, IVANO;BANCI, LUCIA;CAVALLARO, GABRIELE;CIOFI BAFFONI, SIMONE
2011
Abstract
Sco proteins are present in all types of organisms, including the vast majority of eukaryotes and many prokaryotes. It is well established that Sco proteins in eukaryotes are involved in the assembly of the CuA cofactor of mitochondrial cytochrome c oxidase; however their precise role in this process has not yet been elucidated at the molecular level. In particular, some but not all eukaryotes including humans possess two Sco proteins whose individual functions remain unclear. There is evidence that eukaryotic Sco proteins are also implicated in other cellular processes such as redox signalling and regulation of copper homeostasis. The range of physiological functions of Sco proteins appears to be even wider in prokaryotes, where Sco-encoding genes have been duplicated many times during evolution. While some prokaryotic Sco proteins are required for the biosynthesis of cytochrome c oxidase, others are most likely to take part in different processes such as copper delivery to other enzymes and protection against oxidative stress. The detailed understanding of the multiplicity of roles ascribed to Sco proteins requires the identification of the subtle determinants that modulate the two properties central to their known and potential functions, i.e. copper binding and redox properties. In this review, we provide a comprehensive summary of the current knowledge on Sco proteins gained by genetic, structural and functional studies on both eukaryotic and prokaryotic homologues, and propose some hints to unveil the elusive molecular mechanisms underlying their functions. This review provides a comprehensive summary of the current knowledge on Sco proteins gained by genetic, structural and functional studies on both eukaryotic and prokaryotic homologues. Hints are given to identify the subtle determinants that modulate the copper binding and the redox properties of Sco proteins, and thus unveil the elusive molecular mechanisms underlying their cellular functions. © 2011 FEBS.
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