Conserved patterns in the Cu,Zn superoxide dismutase family

Domenico Bordo, Kristina Djinović, Martino Bolognesi

Research output: Contribution to journalArticlepeer-review


Conserved structural and functional features of Cu,Zn superoxide dismutase enzymes have been studied by comparison of known three-dimensional structures and analysis of the currently available amino acid sequences. For this purpose, the three-dimensional structures of the bovine, spinach and yeast enzymes have been superimposed and the structure-based sequence alignment of 38 different superoxide dismutases has been produced. The evolutionary tree obtained from the alignment indicates that cytosolic and extracellular enzymes followed independent evolutionary paths, and that horizontal gene transfer, if any, occurred at an early stage in eukaryota evolution. Based on the sequence alignment and on the analysis of clusters of spatially neighboring residues, the conservation/variation of functionally relevant intramolecular interactions has been investigated. Seven alternative residue arrangements have been identified in the upper rim of the active site, which form an important determinant of the electrostatic field at the catalytic center. The total nominal charge of this region is constantly -1 through the phyla. The seven residues which coordinate the two metal ions at the active site are conserved, with only one known exception. Among the residues involved in maintenance of the active site structure, Gly59, Gly80, Gly136 and Gly139 are fully conserved; mutations of Gly42 and Pro64 have been observed, concerted with replacements in their structural surroundings. Coordinated mutations affecting residue pairs which maintain the packing geometry of the Greek-key β-barrel have been identified. Furthermore, the unique disulfide bridge involving Cys55-Cys144 in eukaryota, shows the alternative Cys50A-Cys144 arrangement in prokaryotic enzymes.

Original languageEnglish
Pages (from-to)366-386
Number of pages21
JournalJournal of Molecular Biology
Issue number3
Publication statusPublished - 1994


  • copper
  • enzyme structure
  • metal-proteins
  • molecular evolution
  • superoxide dismutase
  • zinc

ASJC Scopus subject areas

  • Virology


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