Abstract
Anthracnose disease (Colletotrichum lindemuthianum (Sacc. et. Magn) Lams. Scrib.) is one of the most devastating diseases that constrain common bean production in Uganda. A cascading pedigree pyramiding scheme was used to develop common bean populations to evaluate the effectiveness of pyramided and single resistance genes (Co-42, Co-43, Co-5, and Co-9) on disease development. Detached leaf trifoliates of F4:6 genotypes were screened with four C. lindemuthianum races (352, 713, 767 and 2047). Disease severity data were subjected to ANOVA. Races, genotypes and Race x Genotype interaction were significant. Genes Co-42 and Co-5 conferred resistance to the four races and the gene pyramids Co-42+Co-5+Co-9 and Co-42+Co-5 had the lowest severity scores. Gene Co-43 conferred resistance to race 352 and weak resistance to race 713; whereas, gene Co-9 conferred resistance to race 352. Co-43+Co-9 gene pyramid showed resistance only to race 352. The Co-42 and Co-5 genes conferred resistance to all the four races 352, 713, 767 and 2047. The single gene Co-42 was not significantly different from the pyramids Co-42+Co-5+Co-9 and Co-42+Co-5 (P<0.01). Similarly, the Co-5 gene was not significantly different from Co-42+Co-5, Co-42+Co-9 and Co-5+Co-9 pyramids. The Co-9 gene showed antagonism in all pyramids. These results indicate that pyramiding of resistance genes would be effective for disease management in Uganda, but pyramids with Co-9 gene would be less effective. Key words: SCAR markers, Colletotrichum lindemuthianum, broad-spectrum resistance.
Highlights
Marker-assisted selection (MAS) during gene pyramiding for fixation of alleles and phenotypic screening of advanced lines were conducted at the International Center for Tropical Agriculture (CIAT), based at the National Agricultural Research Laboratories (NARL), Kawanda, located at 0° 24‟ 38.15” N and 32o 32‟ 14.06” E and elevated at 1,147 m above sea level
Images of the amplified DNA fragments for the four dominant Sequence characterized amplified regions (SCAR) markers SAS13, SAB3, SB12 and one codominant marker SBB14 are presented on Figure 3
The significance of „Gene-group x Race‟ interaction indicates that the effect of C. lindemuthianum races on disease severity highly depended on number and combination of resistance genes in the bean cultivars, which is in agreement with Davide and Souza (2009)
Summary
Colletotrichum lindemuthianum (Sacc. et. Magn) Lams. Scrib., the pathogen that causes anthracnose of common beans (Phaseolus vulgaris (L.)) has a high degree of pathogenic and genetic variability (Mahuku and Riascos, 2004). New races of the pathogen continually emerge, which has made single resistance gene deployment lessAuthor(s) agree that this article remain permanently open access under the terms of the Creative Commons Attribution License 4.0 International LicenseJ. Plant Breed. Crop Sci.
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