Korean Journal of Breeding Science (한국육종학회지)

The Korean Society of Breeding Science (한국육종학회)
권호 표지

Disease Reaction of a Japonica Rice, Keumo3, and Detection of a Linked DNA Marker to Leaf Blast Resistance

"금오3호"의 벼 잎도열병 저항성 특성 및 저항성 연관 마커 탐색

  • 이종희 (농촌진흥청 국립식량과학원 기능성작물부) ;
  • 곽도연 (농촌진흥청 국립식량과학원) ;
  • 박동수 (농촌진흥청 국립식량과학원 기능성작물부) ;
  • 노재환 (농촌진흥청 국립식량과학원) ;
  • 강종래 (농촌진흥청 국립식량과학원 기능성작물부) ;
  • 김춘송 (농촌진흥청 국립식량과학원 기능성작물부) ;
  • 전명기 (농촌진흥청 국립식량과학원 기능성작물부) ;
  • 여운상 (농촌진흥청 국립식량과학원 기능성작물부) ;
  • 이기환 (농촌진흥청 국립식량과학원 기능성작물부) ;
  • 신문식 (농촌진흥청 작물과학원 벼맥류부) ;
  • 오병근 (농촌진흥청 국립식량과학원 기능성작물부) ;
  • 황흥구 (농촌진흥청 작물과학원 벼맥류부)
  • Received : 2008.12.22
  • Published : 20081200
⟨ Previous Next ⟩

Abstract

Rice blast resistance is considered one of the most important traits in rice breeding and the disease, caused by Magnaporthe grisea Barr, has brought significant crop losses annually. Moreover, breakdown of resistance normally occurs in two to five years after cultivar release, thus a more durable resistance is needed for better control of this disease. We developed a new variety, Keumo3, which showed strong resistance to leaf blast. It was tested in 2003 to 2007 at fourteen blast nursery sites covering entire rice-growing regions of South Korea. It showed resistance reactions in 12 regions and moderate in 2 regions without showing susceptible reactions. Durability test by sequential planting method indicated that this variety had better resistance. Results showed that Keumo3 was incompatible against 19 blast isolates with the exception of KI101 by artificial inoculation. To understand the genetic control of blast resistance in rice cultivar Keumo3 and facilitate its utilization, recombinant inbred lines (RIL) consisting of 290 F5 lines derived from Akidagomachi/Keumo3 were analyzed and genotyped with Pizt InDel marker zt56591. The recombination value between the marker allele of zt56591 and bioassay data of blast nursery test was 1.1%. These results indicated that MAS can be applied in selecting breeding populations for blast resistance using zt56591 as DNA marker.

벼 조생종 품종 금오3호의 잎도열병 저항성 및 도열병 저항성 연관마커 zt56591과의 관계를 분석한 결과, '03~'07년까지 5년간 전국 14개 지역 잎도열병 밭못자리 검정의 평균 발병정도는 금오3호가 1.6으로 진부벼 3.6, 금오벼 5.3 및 일품벼 6.4에 비해 낮았다. 저항성(0-3) 12개소, 중도 저항성(4-6) 2개소이며, 감수성(7-9)을 보인 곳은 없었다. 도열병 내구저항성에서 병반 면적율이 0.1~5.0%사이로 지속적인 저항성을 보였으며, 29개 균주에 저항성반응을 보였고, 1개 균주에 대해서는 이병성 반응을 보였다. 도열병 저항성과 연관된 DNA marker를 이용하여 분석한 결과 '금오3호'는 도열병 광범위 저항성 유전자로 알려진 Pizt와 연관된 마커 zt56591에 저항성 밴드 패턴을 나타내었다. 또한, 아끼다고마찌/금오3호 RIL집단에서 Pizt 연관마커와 잎도열병 저항성과의 관계를 분석한 결과 조환가가 1.1%로 밀접히 연관되어 있어 '금오3호'와 교배된 후대집단에서 zt56591마커를 이용한 MAS선발도 가능할 것으로 판단되었다.

Keywords

References

  1. Bonman JM, Khush GS, Nelson RJ. 1992. Breeding Rice for Resistance to Pests Annu. Rev. in Phytopathol. 30:507-528 https://doi.org/10.1146/annurev.py.30.090192.002451
  2. Cho YC, Kwon SW, Choi IS, Lee SK , Jeon JS, Oh MK, Roh JH, Hwang HG, Yang SJ, Kim YG. 2007. Identification of major blast resistance genes in korean rice varieties (Oryza sativa L.) using molecular markers. J. Crop. Biothch. Sci: 265-276
  3. Han SS, Ryu JD, Shim HS, Lee SW, Hong YK, Cha KH. 2001. Breakdown of resistance of rice cultivars by new race KI-1117a and Race distribution of rice blast fungus during 1999-2000 in Korea. Rec. Plant Dis (2):86-92
  4. Han SS, Ra DS, Kim CK. 1995. Incidence of panicle blast, rice distribution during 1993-1994 and pathogenicity of new races of Pyricularia grisea in Korea. Korean J. Plant Pathol. 11(3):238-244
  5. Hayashi K, Yoshida H, Ashikawa I. 2006. Development of PCR-based allele-specific and InDel marker sets for nine rice blast resistance genes. Theor. Appl. Genet. 113(2) :251-260 https://doi.org/10.1007/s00122-006-0290-6
  6. Jeung JU, Kim BR, Cho YC, Han SS, Moon HP, Lee YT, Jena KK. 2007. A novel gene, Pi40(t), linked to the DNA markers derived from NBS-LRR motifs confers broad spectrum of blast resistance in rice. Theor Appl Genet. 115 (8):1163-1177 https://doi.org/10.1007/s00122-007-0642-x
  7. Jin X, Lee EJ, Choi JE. 2007. Classification of korean rice cultivars based on reaction pattern to japanese isolates of blast pathogen J. Crop Sci. Biotech. 10:5-9
  8. Kim BR, Roh JH, Choi SH Ahn SW, Han SS. 2004. Durability of rice cultivars to blast in Korea by sequential planting method. Korean J. Bred. Sci. 36(5):350-356
  9. Kim DY, Shim HS, Choi SH, Lei C, Ling ZZ, Han SS. 2004. Comparative assay fungus population and resistant genes about Magnaporthe grisea between Korea and China. Res. Plant Dis. 10(4):217-226 https://doi.org/10.5423/RPD.2004.10.4.217
  10. Kim KH, Kim DH, Cho YH. 2001. Development of near isogenic lines and genetic analysis for amylose content of rice grain. Korean J. Breed Sci. 33(4):280-286
  11. Lee EW, and Park SZ. 1979. Interpretation on the epidemic outbreak of rice blast disease in Korea, 1978. J. Korean Soc. Crop Sci. 24(1):1-10
  12. Liu G, Lu G, Zeng L, Wang GL. 2002. Two broad-spectrum blast resistance genes, Pi9(t) and Pi2(t), are physically linked on rice chromosome 6. Mol. Genet. Genomics 267: 472-480 https://doi.org/10.1007/s00438-002-0677-2
  13. Roh JH, Cho YC, Kim YG, Oh IS, Lee JY, Han SS. 2007. Blast resistance of high quality rice cultivars Korean J. Bred. Sci. 39(3):288-295
  14. Ryu JD, Yeh WH, Han SS, Lee YH, Lee EJ. 1987. Regional and annual fluctuation of races of Pyricularia oryzae during 1977-1985 in Korea. Korean J. Plant Pathol. 3: 174-179
  15. Ra DS, Han SS, Kim CK. 1994. Temporal and spatial blast incidence in leading cultivars and elite lines of rice in Korea. Korean J. Plant Pathol. 10(1):47-53