Homoeologous chromosome exchange explains the creation of a QTL affecting soil-borne pathogen resistance in tobacco.

Crop plant partial resistance to plant pathogens controlled by quantitative trait loci (QTL) is desirable in cultivar development programmes because of its increased durability. Mechanisms underlying such resistance are difficult to study. We performed RNA-seq analyses for tobacco (Nicotiana tabacum) nearly isogenic lines (NILs) with and without favourable allele(s) at Phn7.

Identification and editing of a hybrid lethality gene expands the range of interspecific hybridization potential in Nicotiana.

Identification and inactivation of hybrid lethality genes can be used to expand the available gene pool for improvement of a cultivated crop species. Hybrid lethality is one genetic mechanism that contributes to reproductive isolation in plants and serves as a barrier to use of diverse germplasm for improvement of cultivated species. A classic example is the seedling lethality exhibited by progeny from the Nicotiana tabacum × N.

Characterization of , a Newly Identified Resistance QTL in .

is an oomycete that causes black shank, one of the most economically important diseases affecting tobacco production worldwide. Identification and introgression of novel genetic variability affecting partial genetic resistance to this pathogen is important because of the increased durability of partial resistance over time as compared with genes conferring immunity. A previous mapping study identified a quantitative trait locus (QTL), hereafter designated as with a major effect on resistance in tobacco.