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The use of a fertile doubled haploid apple line for QTL analysis of fruit traits.


ABSTRACT: Apple is an economically important crop, and various approaches to genetic analysis in breeding programs have been attempted, including the production of doubled haploid (DH) lines, which are genetically homozygous. In this study, we used a DH line for QTL analyses, for the first time in a fruit tree, expecting it to simplify the analysis of the inheritance of quantitative traits and thus to enhance QTL detection power. Using an F1 population from 'Prima' × 'Apple Chukanbohon 95P6' (DH), we constructed a genetic map of 'Prima', and identified 19 QTLs for 13 traits. These QTLs had comparatively high LOD scores and explained a large part of the variation of the phenotypes. In particular, acidity, juice browning, and skin splitting clearly segregated at a 1:1 ratio, consistent with the segregation of the alleles at the detected QTLs in linkage group 16; these traits appeared to be regulated by single genes, despite general consideration that they are quantitative traits. Using this simple genetic composition of the F1 population, we concluded that the skin splitting of apple fruit has recessive inheritance, and that the allele for splitting is tightly linked with those for high acidity and low juice browning in 'Prima'.

SUBMITTER: Kunihisa M 

PROVIDER: S-EPMC6776154 | biostudies-literature | 2019 Sep

REPOSITORIES: biostudies-literature

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The use of a fertile doubled haploid apple line for QTL analysis of fruit traits.

Kunihisa Miyuki M   Takita Yuki Y   Yamaguchi Nanako N   Okada Hatsuhiko H   Sato Mamoru M   Komori Sadao S   Nishitani Chikako C   Terakami Shingo S   Yamamoto Toshiya T  

Breeding science 20190704 3


Apple is an economically important crop, and various approaches to genetic analysis in breeding programs have been attempted, including the production of doubled haploid (DH) lines, which are genetically homozygous. In this study, we used a DH line for QTL analyses, for the first time in a fruit tree, expecting it to simplify the analysis of the inheritance of quantitative traits and thus to enhance QTL detection power. Using an F<sub>1</sub> population from 'Prima' × 'Apple Chukanbohon 95P6' (D  ...[more]

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