Disease resistance genetics and genomics in octoploid strawberry
G3: Genes, Genomes, Genetics, 2019•academic.oup.com
Octoploid strawberry (Fragaria× ananassa) is a valuable specialty crop, but profitable
production and availability are threatened by many pathogens. Efforts to identify and
introgress useful disease resistance genes (R-genes) in breeding programs are complicated
by strawberry's complex octoploid genome. Recently-developed resources in strawberry,
including a complete octoploid reference genome and high-resolution octoploid genotyping,
enable new analyses in strawberry disease resistance genetics. This study characterizes the …
production and availability are threatened by many pathogens. Efforts to identify and
introgress useful disease resistance genes (R-genes) in breeding programs are complicated
by strawberry's complex octoploid genome. Recently-developed resources in strawberry,
including a complete octoploid reference genome and high-resolution octoploid genotyping,
enable new analyses in strawberry disease resistance genetics. This study characterizes the …
Abstract
Octoploid strawberry (Fragaria ×ananassa) is a valuable specialty crop, but profitable production and availability are threatened by many pathogens. Efforts to identify and introgress useful disease resistance genes (R-genes) in breeding programs are complicated by strawberry’s complex octoploid genome. Recently-developed resources in strawberry, including a complete octoploid reference genome and high-resolution octoploid genotyping, enable new analyses in strawberry disease resistance genetics. This study characterizes the complete R-gene collection in the genomes of commercial octoploid strawberry and two diploid ancestral relatives, and introduces several new technological and data resources for strawberry disease resistance research. These include octoploid R-gene transcription profiling, dN/dS analysis, expression quantitative trait loci (eQTL) analysis and RenSeq analysis in cultivars. Octoploid fruit eQTL were identified for 76 putative R-genes. R-genes from the ancestral diploids Fragaria vesca and Fragaria iinumae were compared, revealing differential inheritance and retention of various octoploid R-gene subtypes. The mode and magnitude of natural selection of individual F. ×ananassa R-genes was also determined via dN/dS analysis. R-gene sequencing using enriched libraries (RenSeq) has been used recently for R-gene discovery in many crops, however this technique somewhat relies upon a priori knowledge of desired sequences. An octoploid strawberry capture-probe panel, derived from the results of this study, is validated in a RenSeq experiment and is presented for community use. These results give unprecedented insight into crop disease resistance genetics, and represent an advance toward exploiting variation for strawberry cultivar improvement.
Oxford University Press
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