4.7 Article

A Genome-Wide Association Study for Resistance to the Insect Pest Leptocybe invasa in Eucalyptus grandis Reveals Genomic Regions and Positional Candidate Defense Genes

Journal

PLANT AND CELL PHYSIOLOGY
Volume 61, Issue 7, Pages 1285-1296

Publisher

OXFORD UNIV PRESS
DOI: 10.1093/pcp/pcaa057

Keywords

Genome-wide association study; Linkage disequilibrium; Multi-locus mixed model; Quantitative trait locus; Single-nucleotide polymorphism

Funding

  1. Department of Science and Technology
  2. South African National Research Foundation [UID105767]
  3. Technology and Human Resources for Industry Programme (THRIP) [96413]
  4. Technology Innovation Agency (TIA) Forest Molecular Genetics Cluster Programme
  5. Forest Sector Innovation Fund, Forestry South Africa
  6. Incentive funding for rated researchers [UID95807]

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The galling insect, Leptocybe invasa, causes significant losses in plantations of various Eucalyptus species and hybrids, threatening its economic viability. We applied a genome-wide association study (GWAS) to identify single-nucleotide polymorphism (SNP) markers associated with resistance to L. invasa. A total of 563 insect-challenged Eucalyptus grandis trees, from 61 half-sib families, were genotyped using the EUChip60K SNP chip, and we identified 15,445 informative SNP markers in the test population. Multi-locus mixed-model (MLMM) analysis identified 35 SNP markers putatively associated with resistance to L. invasa based on four discreet classes of insect damage scores: (0) not infested, (1) infested showing evidence of oviposition but no gall development, (2) infested with galls on leaves, midribs or petioles and (3) stunting and lethal gall formation. MLMM analysis identified three associated genomic regions on chromosomes 3, 7 and 8 jointly explaining 17.6% of the total phenotypic variation. SNP analysis of a validation population of 494 E. grandis trees confirmed seven SNP markers that were also detected in the initial association analysis. Based on transcriptome profiles of resistant and susceptible genotypes from an independent experiment, we identified several putative candidate genes in associated genomic loci including Nucleotide-binding ARC- domain (NBARC) and toll-interleukin-1-receptor-Nucleotide binding signal- Leucine rich repeat (TIR-NBS-LRR) genes. Our results suggest that Leptocybe resistance in E. grandis may be influenced by a few large-effect loci in combination with minor effect loci segregating in our test and validation populations.

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