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Multiple genes confer resistance to soybean mosaic virus in the soybean cultivar Hwangkeum

Published online by Cambridge University Press:  16 July 2014

Namhee Jeong
Affiliation:
Bio-Evaluation Center, Korea Research Institute of Bioscience and Biotechnology, Cheongwon, Republic of Korea
Soon-Chun Jeong*
Affiliation:
Bio-Evaluation Center, Korea Research Institute of Bioscience and Biotechnology, Cheongwon, Republic of Korea
*
* Corresponding author. E-mail: [email protected]

Abstract

Recombinant inbred lines (RILs) generated from a cross between a cultivated species and its wild progenitor species serve as important germplasm for introgressing valuable genes from a wild species to a cultivated species. During this breeding process, it is equally important to prevent the loss of agronomically important genes in the cultivated species. In an effort to establish an efficient selection system for the single Rsv1 gene conferring durable resistance to soybean mosaic virus (SMV) in the soybean cultivar Hwangkeum (also known as Suweon 97), which is a parent of a RIL population from Hwangkeum (cultivated soybean) × IT182932 (wild soybean), in the present study, we unexpectedly identified an additional necrosis-conditioning gene unmasked by a recombination in the middle of the Rsv1-containing nucleotide-binding leucine-rich repeat gene cluster region and the Rsv3 gene in Hwangkeum. Thus, Hwangkeum contains at least three SMV resistance genes consisting of two tightly linked genes at the Rsv1 locus and the Rsv3 locus. The results of this study provide additional important information for use of the Hwangkeum genome in soybean breeding programmes.

Type
Research Article
Copyright
Copyright © NIAB 2014 

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References

Chen, P, Buss, GR, Tolin, SA, Gunduz, I and Cicek, M (2002) A valuable gene in Suweon 97 soybean for resistance to soybean mosaic virus. Crop Science 42: 333337.Google Scholar
Cho, EK and Goodman, RM (1982) Evaluation of resistance in soybeans to soybean mosaic virus strains. Crop Science 22: 11331136.Google Scholar
Chung, W-H, Jeong, N, Kim, J, Lee, WK, Lee, Y-G, Lee, S-H, Yoon, W, Kim, J-H, Choi, I-Y, Choi, H-K, Moon, J-K, Kim, N and Jeong, SC (2013) Population structure and domestication revealed by high-depth resequencing of Korean cultivated and wild soybean genomes. DNA Research. doi: 10.1093/dnares/dst047.Google Scholar
Collier, SM and Moffett, P (2009) NB-LRRs work a “bait and switch” on pathogens. Trends in Plant Science 14: 521529.Google Scholar
Gore, MA, Hayes, AJ, Jeong, SC, Yu, YG, Buss, GR and Saghai Maroof, MA (2002) Mapping tightly linked genes controlling potyvirus infection at the Rsv1 and Rpv1 region in soybean. Genome 45: 592599.Google Scholar
Hayes, AJ, Ma, GR, Buss, GR and Saghai Maroof, MA (2000) Molecular marker mapping of Rsv4, a gene conferring resistance to all known strains of soybean mosaic virus. Crop Science 40: 14341437.Google Scholar
Jeong, SC, Kristipati, S, Hayes, AJ, Maughan, PJ, Noffsinger, SL, Gunduz, I, Buss, GR and Saghai Maroof, MA (2002) Genetic and sequence analysis of markers tightly linked to the soybean mosaic virus resistance gene, Rsv3 . Crop Science 42: 265270.Google Scholar
Lee, WK, Kim, N, Kim, J, Moon, JK, Jeong, N, Choi, IY, Kim, SC, Chung, WH, Kim, HS, Lee, SH and Jeong, SC (2013) Dynamic genetic features of chromosomes revealed by comparison of soybean genetic and sequence-based physical maps. Theoretical and Applied Genetics 126: 11031119.Google Scholar
Li, D, Chen, P, Alloatti, J, Shi, A and Chen, YF (2010) Identification of new alleles for resistance to soybean mosaic virus in soybean. Crop Science 50: 649655.Google Scholar
Ma, G, Chen, P, Buss, GR and Tolin, SA (2003) Genetic study of a lethal necrosis to soybean mosaic virus in PI507389 soybean. Journal of Heredity 94: 205211.Google Scholar
Saghai Maroof, MA, Jeong, SC, Gunduz, I, Tucker, DM, Buss, GR and Tolin, SA (2008) Pyramiding of soybean mosaic virus resistance genes by marker-assisted selection. Crop Science 48: 517526.Google Scholar
Song, QJ, Marek, LF, Shoemaker, RC, Lark, KG, Concibido, VC, Delannay, X, Sphecht, JE and Cregan, PB (2004) A new integrated genetic linkage map of the soybean. Theoretical and Applied Genetics 109: 122128.Google Scholar
Suh, SJ, Bowman, BC, Jeong, N, Yang, K, Kastl, C, Tolin, SA, Saghai Maroof, MA and Jeong, SC (2011) The Rsv3 locus conferring resistance to soybean mosaic virus is associated with a cluster of coiled-coil nucleotide-binding leucine-rich repeat genes. The Plant Genome 4: 5564.Google Scholar
Tucker, DM, Maroof, MAS, Jeong, SC, Buss, GR and Tolin, SA (2009) Validation and interaction of the soybean mosaic virus lethal necrosis allele, Rsv1-n, in PI 507389. Crop Science 49: 12771283.Google Scholar
Viel, C, Ide, C, Cui, X, Wang, A, Farsi, M, Michelutti, R and Strömvik, M (2009) Isolation, partial sequencing, and phylogenetic analyses of soybean mosaic virus (SMV) in Ontario and Quebec. Canadian Journal of Plant Pathology 31: 108113.Google Scholar
Yang, K, Jeong, N, Moon, JK, Lee, YH, Lee, SH, Kim, HM, Hwang, CH, Back, K, Palmer, RG and Jeong, SC (2010) Genetic analysis of genes controlling natural variation of seed coat and flower colors in soybean. Journal of Heredity 101: 757768.Google Scholar
Yang, Y, Zheng, G, Han, L, Dagang, W, Yang, X, Yuan, Y, Huang, S and Zhi, H (2013) Genetic analysis and mapping of genes for resistance to multiple strains of soybean mosaic virus in a single resistant soybean accession PI 96983. Theoretical and Applied Genetics 126: 17831791.Google Scholar
Yu, YG, Saghai Maroof, MA, Buss, GR, Maughan, PJ and Tolin, SA (1994) RFLP and micro satellite mapping of a gene for soybean mosaic virus resistance. Phytopathology 84: 6064.Google Scholar
Yu, YH, Yu, H, Jeong, J, Park, H, Song, D, Kim, C, Kim, S, Lee, Y, Park, J and Park, K (2008) A General Survey of Korean Legume Cultivars (in Korean) . Suwon: National Institute of Crop Science.Google Scholar