Multiple Origins and nrDNA Internal Transcribed Spacer Homeologue Evolution in the Glycine tomentella (Leguminosae) Allopolyploid Complex

doi:10.1534/genetics.166.2.987

Multiple Origins and nrDNA Internal Transcribed Spacer Homeologue Evolution in the Glycine tomentella (Leguminosae) Allopolyploid Complex

Jason T. Rauscher^a, Jeff J. Doyle^a, and A. H. D. Brown^b
^a L. H. Bailey Hortorium, Cornell University, Ithaca, New York 14853
^b Centre for Plant Biodiversity Research, Commonwealth Scientific and Industrial Research Organization Plant Industry, Canberra, ACT 2601, Australia

Corresponding author: Jason T. Rauscher, Apartado Aéreo 4976, Universidad de los Andes, Bogotá, D.C., Colombia., rauscher{at}evoandes.net (E-mail)

Communicating editor: S. W. SCHAEFFER

Despite the importance of polyploidy in the evolution of plants,patterns of molecular evolution and genomic interactions followingpolyploidy are not well understood. Nuclear ribosomal DNA isparticularly complex with respect to these genomic interactions.The composition of nrDNA tandem arrays is influenced by intra-and interlocus concerted evolution and their expression is characterizedby patterns such as nucleolar dominance. To understand thesecomplex interactions it is important to study them in diversenatural polyploid systems. In this study we use direct sequencingto isolate and characterize nrDNA internal transcribed spacer(ITS) homeologues from multiple accessions of six differentraces in the Glycine tomentella allopolyploid complex. The resultsindicate that in most allopolyploid accessions both homeologousnrDNA repeats are present, but that there are significant biasesin copy number toward one homeologue, possibly resulting frominterlocus concerted evolution. The predominant homeologue oftendiffers between races and between accessions within a race.A phylogenetic analysis of ITS sequences provides evidence formultiple origins in several of the polyploid races. This evidencefor diverse patterns of nrDNA molecular evolution and multipleorigins of polyploid races will provide a useful system forfuture studies of natural variation in patterns of nrDNA expression.

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