Recombination Between Paralogues at the rp1 Rust Resistance Locus in Maize

Recombination Between Paralogues at the rp1 Rust Resistance Locus in Maize

Qing Sun^a, Nicholas C. Collins^b, Michael Ayliffe^c, Shavannor M. Smith^a, Jeff Drake^a, Tony Pryor^c, and Scot H. Hulbert^a
^a Department of Plant Pathology, Kansas State University, Manhattan, Kansas 66506,
^b Sainsbury Laboratory, John Innes Centre, Norwich, Norfolk NR4 7UH, United Kingdom
^c Division of Plant Industry, Commonwealth Scientific and Industrial Research Organisation, Canberra, ACT 2601, Australia

Corresponding author: Scot H. Hulbert, Department of Plant Pathology, Throckmorton Hall, Kansas State University, Manhattan, KS 66506-5502., shulbrt{at}plantpath.ksu.edu (E-mail)

Communicating editor: J. A. BIRCHLER

Rp1 is a complex rust resistance locus of maize. The HRp1-Dhaplotype is composed of Rp1-D and eight paralogues, seven ofwhich also code for predicted nucleotide binding site-leucinerich repeat (NBS-LRR) proteins similar to the Rp1-D gene. Theparalogues are polymorphic (DNA identities 91–97%), especiallyin the C-terminal LRR domain. The remaining family member encodesa truncated protein that has no LRR domain. Seven of the ninefamily members, including the truncated gene, are transcribed.Sequence comparisons between paralogues provide evidence forpast recombination events between paralogues and diversifyingselection, particularly in the C-terminal half of the LRR domain.Variants selected for complete or partial loss of Rp1-D resistancecan be explained by unequal crossing over that occurred mostlywithin coding regions. The Rp1-D gene is altered or lost inall variants, the recombination breakpoints occur throughoutthe genes, and most recombinant events (9/14 examined) involvedthe same untranscribed paralogue with the Rp1-D gene. One recombinantwith a complete LRR from Rp1-D, but the amino-terminal portionfrom another homologue, conferred the Rp1-D specificity butwith a reduced level of resistance.

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