Genetic mapping of polygenic scab (Venturia pirina) resistance in an interspecific pear family

The need for chemical control of scab ( Venturia pirina , V. nashicola ) is the main barrier preventing sustainable pear production. As cultivars with durable resistance are not available yet commercially, the development of molecular markers for early selection is desirable to enhance the efficienc...

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Bibliographic Details
Published in:Molecular breeding 2014-12, Vol.34 (4), p.2179-2189
Main Authors: Won, Kyungho, Bastiaanse, Héloïse, Kim, Yoon Kyeong, Song, Jang Hoon, Kang, Sam Seog, Lee, Han Chan, Cho, Kang Hee, Brewer, Lester, Singla, Gagandeep, Gardiner, Susan E., Chagné, David, Bus, Vincent G. M.
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Biotechnology
Chemical control
Cultivars
Fruits
Gene mapping
Gene polymorphism
Inoculation
Interspecific
Life Sciences
Mapping
Markers
Molecular biology
Nucleotides
Organic chemistry
Parents
Pears
Plant biology
Plant Genetics and Genomics
Plant Pathology
Plant Physiology
Plant Sciences
Polygenic inheritance
Polymorphism
Progeny
Pyrus communis
Pyrus pyrifolia
Pyrus ussuriensis
Quantitative trait loci
Scab
Single-nucleotide polymorphism
Venturia nashicola
Venturia pirina
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Summary:The need for chemical control of scab ( Venturia pirina , V. nashicola ) is the main barrier preventing sustainable pear production. As cultivars with durable resistance are not available yet commercially, the development of molecular markers for early selection is desirable to enhance the efficiency of breeding such cultivars. Interspecific pear progeny PEAR1 × PEAR2 derived from European ( Pyrus communis ) and Asian ( P. pyrifolia and P. ussuriensis ) pears was infected with three single-spore isolates of V. pirina using the droplet inoculation technique. Illumina Infinium ® HD Assay technology was employed to genotype the progeny with single nucleotide polymorphism markers for map construction. With one linkage group missing in each parent, the parental maps covered 17 linkage groups in total, 1,132.3 and 1,136.8 centimorgan for the female and male parents, respectively. Resistance mapping resulted in the identification of seven quantitative trait loci (QTLs) by Kruskal–Wallis analysis. Parent PEAR1 contributed a QTL on linkage group (LG) 17 that was effective against all three scab isolates, while PEAR2 contributed one on LG7 that was effective against two isolates. The other five QTLs, on LG2 and LG5 of PEAR2, and LG7 and LG10 of PEAR1, displayed differential interactions, with each QTL being paired with a single incompatible isolate. Additive effects of combined resistance loci displayed a higher level of resistance than single loci, and the role of nonhost resistance is discussed.
ISSN:1380-3743
1572-9788
DOI:10.1007/s11032-014-0172-6