QTL analysis for resistance to Soybean dwarf virus in Indonesian soybean cultivar Wilis

被引:0
|
作者
Atsushi Uchibori
Jun Sasaki
Toru Takeuchi
Motokazu Kamiya
Akiko Tazawa
Tsuyoshi Inukai
Chikara Masuta
机构
[1] Hokkaido University,Graduate School of Agriculture
[2] Hokkaido Central Agricultural Experiment Station,undefined
来源
Molecular Breeding | 2009年 / 23卷
关键词
SbDV; Resistance; SSR; Soybean;
D O I
暂无
中图分类号
学科分类号
摘要
Soybean dwarf virus (SbDV), a member of the Luteoviridae family, causes serious yield losses in soybean production in northern Japan. We previously found that an Indonesian soybean cv. Wilis had a high level of resistance to SbDV. Although Wilis is infected by SbDV, symptoms are always mild and develop considerably later compared with many susceptible cultivars. To identify the resistance gene(s) to SbDV in Wilis in a quantitative trait loci (QTL) analysis, we used 71 recombinant inbred lines derived from a cross between Wilis and the susceptible Japanese cv. Toyokomachi and a set of published simple sequence repeat (SSR) markers. The SbDV resistance in Wilis was mainly controlled by a single QTL located near the SSR marker Sat_271 on the linkage group A1. This QTL accounted for 79% of the phenotypic variance.
引用
收藏
页码:323 / 328
页数:5
相关论文
共 50 条
  • [1] QTL analysis for resistance to Soybean dwarf virus in Indonesian soybean cultivar Wilis
    Uchibori, Atsushi
    Sasaki, Jun
    Takeuchi, Toru
    Kamiya, Motokazu
    Tazawa, Akiko
    Inukai, Tsuyoshi
    Masuta, Chikara
    MOLECULAR BREEDING, 2009, 23 (02) : 323 - 328
  • [2] Fine mapping of the major Soybean dwarf virus resistance gene Rsdv1 of the soybean cultivar 'Wilis'
    Yamashita, Yoko
    Takeuchi, Toru
    Ohnishi, Shizen
    Sasaki, Jun
    Tazawa, Akiko
    BREEDING SCIENCE, 2013, 63 (04) : 417 - 422
  • [3] QTL analysis of resistance to soybean cyst nematode race 3 in soybean cultivar toyomusume
    Ferdous, Shameema Akhter
    Watanabe, Satoshi
    Suzuki-Orihara, Chika
    Tanaka, Yoshinori
    Kamiya, Motokazu
    Yamanaka, Naoki
    Harada, Kyuya
    BREEDING SCIENCE, 2006, 56 (02) : 155 - 163
  • [4] Multiple genes confer resistance to soybean mosaic virus in the soybean cultivar Hwangkeum
    Jeong, Namhee
    Jeong, Soon-Chun
    PLANT GENETIC RESOURCES-CHARACTERIZATION AND UTILIZATION, 2014, 12 : S41 - S44
  • [5] RNAi-mediated Soybean mosaic virus (SMV) resistance of a Korean Soybean cultivar
    Kim, Hye Jeong
    Kim, Mi-Jin
    Pak, Jung Hun
    Im, Hyun Hee
    Lee, Dong Hee
    Kim, Kook-Hyung
    Lee, Jai-Heon
    Kim, Doh-Hoon
    Choi, Hong Kyu
    Jung, Ho Won
    Chung, Young-Soo
    PLANT BIOTECHNOLOGY REPORTS, 2016, 10 (05) : 257 - 267
  • [6] RNAi-mediated Soybean mosaic virus (SMV) resistance of a Korean Soybean cultivar
    Hye Jeong Kim
    Mi-Jin Kim
    Jung Hun Pak
    Hyun Hee Im
    Dong Hee Lee
    Kook-Hyung Kim
    Jai-Heon Lee
    Doh-Hoon Kim
    Hong Kyu Choi
    Ho Won Jung
    Young-Soo Chung
    Plant Biotechnology Reports, 2016, 10 : 257 - 267
  • [7] First report of Soybean dwarf virus on soybean in Wisconsin
    Phibbs, A.
    Barta, A.
    Domier, L. L.
    PHYTOPATHOLOGY, 2004, 94 (06) : S84 - S84
  • [8] Identification of a major QTL related to resistance to soybean mosaic virus in diverse soybean genetic populations
    Jiahao Chu
    Wenlong Li
    Dongri Piao
    Feng Lin
    Xiaobo Huo
    Hua Zhang
    Hui Du
    Youbin Kong
    Yuan Jin
    Xihuan Li
    Caiying Zhang
    Euphytica, 2021, 217
  • [9] First report of Soybean dwarf virus on soybean in Wisconsin
    Phibbs, A
    Barta, A
    PLANT DISEASE, 2004, 88 (11) : 1285 - 1285
  • [10] Biolistic inoculation of soybean plants with soybean dwarf virus
    Yamagishi, Noriko
    Terauchi, Hidetaka
    Kanematsu, Seiji
    Hidaka, Soh
    JOURNAL OF VIROLOGICAL METHODS, 2006, 137 (01) : 164 - 167
12345