Diversity, distribution, and ancient taxonomic relationships within the TIR and non-TIR NBS-LRR resistance gene subfamilies

Steven B. Cannon, Hongyan Zhu, Andrew M. Baumgarten, Russell Spangler, Georgiana May, Douglas R. Cook, Nevin D. Young

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Abstract

Phylogenetic relationships among the NBS-LRR (nucleotide binding site - leucine-rich repeat) resistance gene homologues (RGHs) from 30 genera and nine families were evaluated relative to phylogenies for these taxa. More than 800 NBS-LRR RGHs were analyzed, primarily from Fabaceae, Brassicaceae, Poaceae, and Solanaceae species, but also from representatives of other angiosperm and gymnosperm families. Parsimony, maximum likelihood, and distance methods were used to classify these RGHs relative to previously observed gene subfamilies as well as within more closely related sequence clades. Grouping sequences using a distance cutoff of 250 PAM units (point accepted mutations per 100 residues) identified at least five ancient sequence clades with representatives from several plant families: the previously observed TIR gene subfamily and a minimum of four deep splits within the non-TIR gene subfamily. The deep splits in the non-TIR subfamily are also reflected in comparisons of amino acid substitution rates in various species and in ratios of nonsynonymous-to-synonymous nucleotide substitution rates (KA/KS values) in Arabidopsis thaliana. Lower KA/KS values in the TIR than the non-TIR sequences suggest greater functional constraints in the TIR subfamily. At least three of the five identified ancient clades appear to predate the angiosperm - gymnosperm radiation. Monocot sequences are absent from the TIR subfamily, as observed in previous studies. In both subfamilies, clades with sequences separated by approximately 150 PAM units are family but not genus specific, providing a rough measure of minimum dates for the first diversification event within these clades. Within any one clade, particular taxa may be dramatically over- or underrepresented, suggesting preferential expansions or losses of certain RGH types within particular taxa and suggesting that no one species will provide models for all major sequence types in other taxa.

Original languageEnglish (US)
Pages (from-to)548-562
Number of pages15
JournalJournal of Molecular Evolution
Volume54
Issue number4
DOIs
StatePublished - Apr 13 2002

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Keywords

  • Birth and death model
  • Glycine max
  • Medicago truncatula
  • Multigene families
  • NBS-LRR disease resistance gene
  • Protein sequence evolution

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