Phylogeny, Function, and Evolution of the Cupins, a Structurally Conserved, Functionally Diverse Superfamily of Proteins

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Molecular Biology and Evolution 18:593-605 (2001)
© 2001 Society for Molecular Biology and Evolution

ARTICLE

Phylogeny, Function, and Evolution of the Cupins, a Structurally Conserved, Functionally Diverse Superfamily of Proteins

Sawsan Khuri, Freek T. Bakker¹^, and Jim M. Dunwell^,

School of Plant Sciences, University of Reading, Reading, England

The cupin superfamily is a group of functionally diverse proteinsthat are found in all three kingdoms of life, Archaea, Eubacteria,and Eukaryota. These proteins have a characteristic signaturedomain comprising two histidine- containing motifs separatedby an intermotif region of variable length. This domain consistsof six beta strands within a conserved beta barrel structure.Most cupins, such as microbial phosphomannose isomerases (PMIs),AraC- type transcriptional regulators, and cereal oxalate oxidases(OXOs), contain only a single domain, whereas others, such asseed storage proteins and oxalate decarboxylases (OXDCs), arebi-cupins with two pairs of motifs. Although some cupins haveknown functions and have been characterized at the biochemicallevel, the majority are known only from gene cloning or sequencingprojects. In this study, phylogenetic analyses were conductedon the conserved domain to investigate the evolution and structure/functionrelationships of cupins, with an emphasis on single- domainplant germin-like proteins (GLPs). An unrooted phylogeny ofcupins from a wide spectrum of evolutionary lineages identifiedthree main clusters, microbial PMIs, OXDCs, and plant GLPs.The sister group to the plant GLPs in the global analysis wasthen used to root a phylogeny of all available plant GLPs. Theresulting phylogeny contained three main clades, classifyingthe GLPs into distinct subfamilies. It is suggested that thesesubfamilies correlate with functional categories, one of whichcontains the bifunctional barley germin that has both OXO andsuperoxide dismutase (SOD) activity. It is proposed that GLPsfunction primarily as SODs, enzymes that protect plants fromthe effects of oxidative stress. Closer inspection of the DNAsequence encoding the intermotif region in plant GLPs showedglobal conservation of thymine in the second codon position,a character associated with hydrophobic residues. Since manyof these proteins are multimeric and enzymatically inactivein their monomeric state, this conservation of hydrophobicityis thought to be associated with the need to maintain the variousmonomer- monomer interactions. The type of structure-based predictiveanalysis presented in this paper is an important approach forunderstanding gene function and evolution in an era when genomesfrom a wide range of organisms are being sequenced at a rapidrate.

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