MADS-Box Gene Diversity in Seed Plants 300 Million Years Ago

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Molecular Biology and Evolution 17:1425-1434 (2000)
© 2000 Society for Molecular Biology and Evolution

ARTICLE

MADS-Box Gene Diversity in Seed Plants 300 Million Years Ago

Annette Becker, Kai-Uwe Winter, Britta Meyer, Heinz Saedler and Günter Theißen^,

Max-Planck-Institut für Züchtungsforschung, Abteilung Molekulare Pflanzengenetik, Köln, Germany

MADS-box genes encode a family of transcription factors whichcontrol diverse developmental processes in flowering plantsranging from root development to flower and fruit development.Through phylogeny reconstructions, most of these genes can besubdivided into defined monophyletic gene clades whose membersshare similar expression patterns and functions. Therefore,the establishment of the diversity of gene clades was probablyan important event in land plant evolution. In order to determinewhen these clades originated, we isolated cDNAs of 19 differentMADS-box genes from Gnetum gnemon, a gymnosperm model speciesand thus a representative of the sister group of the angiosperms.Phylogeny reconstructions involving all published MADS-box geneswere then used to identify gene clades containing putative orthologsfrom both angiosperm and gymnosperm lineages. Thus, the minimalnumber of MADS-box genes that were already present in the lastcommon ancestor of extant gymnosperms and angiosperms was determined.Comparative expression studies involving pairs of putativelyorthologous genes revealed a diversity of patterns that hasbeen largely conserved since the time when the angiosperm andgymnosperm lineages separated. Taken together, our data suggestthat there were already at least seven different MADS-box genespresent at the base of extant seed plants about 300 MYA. Thesegenes were probably already quite diverse in terms of both sequenceand function. In addition, our data demonstrate that the MADS-boxgene families of extant gymnosperms and angiosperms are of similarcomplexities.

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