Anthracnose and bean common mosaic necrosis virus resistance in wild and landrace Phaseolus vulgaris (L.) genetic stocks

Abstract

AbstractWild crop germplasm and landrace varieties have long been considered as a source of novel genetic variation for improving domesticated crops. Due to genetic bottlenecks that occurred during domestication, dissemination, and subsequent crop improvement, many beneficial genes are absent from commercial varieties and elite breeding germplasm, yet are still present in wild populations. To catalog potential novel disease resistance genes useful for breeding more resilient dry beans, we screened wild and landrace Phaseolus vulgaris L. accessions archived in the USDA GRIN seed bank for untapped resistance to anthracnose (Colletotrichum lindemuthianum) and bean common mosaic necrosis virus (BCMNV). A population of 194 wild and 55 landrace accessions were screened for resistance to two highly virulent races of anthracnose (race 2047 and race 3481) and for resistance to the BCMNV strain NL‐3. Thirteen accessions, all wild, were resistant to both anthracnose races, with MX‐QT‐3 and PI 661812 displaying complete resistance with no disease symptoms across all replications. Surprisingly, no natural resistance to BCMNV strain NL‐3 was detected in the wild germplasm. PI 442541, PI 661891, and W6 10164 were the only three accessions that expressed the I‐gene phenotype and all three have some history of cultivation. This study provides a resource for introgression of genetic diversity for anthracnose resistance into cultivated beans and reveals that innate resistance to BCMNV may not exist in wild populations of P. vulgaris.