Emmanuel M. Mgonja, Elias G. Balimponya, Houxiang Kang, Maria Bellizzi, Chan Ho Park, Ya Li, Robert Mabagala, Clay Sneller, Jim Correll, Stephen Opiyo, Nicholas J. Talbot, Thomas Mitchell, and Guo-Liang Wang

ABSTRACT

Rice blast disease is emerging as a major constraint to rice production in Africa. Although a traditional gene-tagging strategy using biparental crosses can effectively identify resistance (R) genes or quantitative trait loci (QTL) against Magnaporthe oryzae, the mapping procedure required is time consuming and requires many populations to investigate the genetics of resistance. In this report, we conducted a genome-wide association study (GWAS) to rapidly map rice genes conferring resistance against eight M. oryzae isolates from four African countries. We inoculated 162 rice cultivars, which were part of the rice diversity panel 1 (RDP1) and were previously genotyped with the 44,000 single-nucleotide polymorphism (SNP) chip, with the eight isolates. The GWAS identified 31 genomic regions associated with blast resistance (RABR) in the rice genome. In addition, we used polymerase chain reaction analysis to confirm the association between the Pish gene and a major RABR on chromosome 1 that was associated with resistance to four M. oryzae isolates. Our study has demonstrated the power of GWAS for the rapid identification of rice blast R or QTL genes that are effective against African populations of M. oryzae. The identified SNP markers associated with RABR can be used in breeding for resistance against rice blast in Africa.

See: Phytopathology, November 2016, Volume 106, Number 11 , Pages 1359-1365

http://apsjournals.apsnet.org/doi/full/10.1094/PHYTO-01-16-0028-R