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Chromosome location of resistance to septoria leaf blotch and common bunt in wheat-barley addition lines

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Abstract

Septoria leaf blotch and common bunt are important diseases of wheat to which Hordeum vulgare is resistant. Addition lines of H. vulgare in wheat were utilized to determine which H. vulgare chromosomes carry resistance genes. Resistance to septoria leaf blotch was conferred by gene(s) present all over the barley genome, but more strongly by those located on chromosomes 7 and 4. Almost complete resistance to common bunt was conferred by gene(s) present in chromosomes 6 and a slight but significant level of resistance was conferred by chromosome 7.

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References

  • Ahmed, H.U., C.C. Mundt, M.E. Hoffer & S.M. Coakley, 1996. Selective influence of wheatcultivars on pathogenicity of Mycosphaerella graminicola (anamorph Septoria tritici). Phytopathology 86: 454–458.

    Google Scholar 

  • Arriano, L.S., A.J. Worland & J.K.M. Brown, 1999. Cytogenetics of resistance of wheat to septoria tritici leafblotch. In: M. van Ginkel, A. McNab & J. Krupinsky (Eds.), Septoria and Stagonospora Diseases of Cereals: A Compilation of Global Research, pp. 53, CIMMYT, Mexico.

    Google Scholar 

  • Chauhan, R.S. & B.M Singh, 1994. Karnalbunt resistance in wheatbarley addition lines. Plant Breeding 112: 252–255.

    Article  Google Scholar 

  • Cowger, C., C.C. Mundt & M.E. Hoffer, 1999. A vertically resistant wheat selects for specifically adapted Mycosphaerella graminicola strains. In: M. van Ginkel, A. McNab & J. Krupinsky (Eds.), Septoria and Stagonospora Diseases of Cereals: A Compilation of Global Research, pp. 85–86, CIMMYT, Mexico.

    Google Scholar 

  • Dhaliwal, H.S., S. Dilbag, S. Multani & B.B. Singh, 1987.Identification of rye and barley chromosomes carrying resistance to Karnal bunt of wheat (Neovossia indica). Cereal Res Comm 15: 191–194.

    Google Scholar 

  • Dubin, H.J. & S. Rajaram, 1996. Breeding disease-resistant wheats for tropicalhighlands and lowlands. Annu Rev Phytopathol 34: 530–526.

    Article  Google Scholar 

  • Eyal, Z., A.L. Scharen, J.M. Prescott & M. vanGinkel, 1987. The Septoria Diseases of Wheat: Concepts and Methods of Disease Management. CIMMYT, Mexico.

    Google Scholar 

  • Fedak, G., 1992. Intergeneric hybrids with Hordeum. In: P.R. Shewry (Ed.), Barley: Genetics, Biochemistry,Molecular Biology and Biotechnology, pp 45–70, CAB International, UK.

    Google Scholar 

  • Gaudet, D.A. & B.J. Puchalski,1989. Status of bunt resistance in Western Canadian spring wheat and triticale. Can J Plant Sci 69: 797–804.

    Article  Google Scholar 

  • Hoffman, J.A., 1982. Bunt of wheat. Plant Dis 66: 979–987.

    Article  Google Scholar 

  • Hoffman, J.A. & R.J. Metzger,1976. Current status of virulence genes and pathogenic races of the wheat bunt fungi in the northwestern USA. Phytopathology 66: 657–660.

    Article  Google Scholar 

  • Hu, C., D.J. Hole & R.S. Albrechtsen, 1996. Barley chromosomelocation and expression of dwarf bunt resistance in wheat addition lines. Plant Dis 80: 1273–1276.

    Article  Google Scholar 

  • Islam, A.K.M.R. & K.W. Shepherd, 1992. Production of wheatbarley recombinant chromosomes through induced homoeologous pairing. 1. Isolation of recombinants involving barley arms 3HL and 6HL. Theor Appl Genet 83: 489–494.

    Article  Google Scholar 

  • Islam, A.K.M.R. & K.W. Shepherd, 2000. Isolation of a fertile wheat-barley addition line carrying the entire barley chromosome 1H. Euphytica 111: 145–149.

    Article  Google Scholar 

  • Islam, A.K.M.R., K.W. Shepherd & D.H.B. Sparrow, 1981. Isolation andcharacterisation of euplasmic wheat-barley chromosome addition lines. Heredity 46: 161–174.

    Google Scholar 

  • Kema, G.H.K,R. Sayoud, J.G. Annone & C.H. Van Silfhout, 1996. Genetic variation for virulence and resistance in the wheat-Mycosphaerella graminicola pathosystern II. Analysis of interactions between pathogen isolates and host cultivars. Phytopathology 86: 213–220.

    Google Scholar 

  • Kuiper, J., 1965. Failure of hexachlorobenzene to control common bunt ofwheat. Nature 206: 1219–1220.

    Article  Google Scholar 

  • Mamluk, O.F., 1998. Bunts and smuts of wheat in North Affica and theNear East. Euphytica 100: 45–50.

    Article  Google Scholar 

  • Martín, A., C. Martínez-Araque, D. Rubiales & J. Ballesteros, 1996.Tritordeum: triticale's new brother cereal. In: H. Guedes-Pinto et al. (Eds.), Triticale: Present and Future, pp. 57–72, Kluwer Academic Publishers, NL.

    Google Scholar 

  • Mozgovoi, A.F., I.Y. Saakyan & M.V. Novikova, 1987. Gene pool ofsources and donors for breeding winter bread wheat for immunity to bunt. Vavilova 176: 11–15.

    Google Scholar 

  • Mundt, C.C.,M.E. Hoffer, H.U. Ahmed, S.M. Coakley, J.A. DiLeone & C. Cowger, 1999. Population genetics and host resistance. In: J.A. Lucas, P. Bowyer & H.M. Anderson (Eds.), Septoria on Cereals: A study of Pathosystems, pp. 115–130, CABI Publishing, Oxon, UK.

    Google Scholar 

  • Raynal, G., 1997. Wheat bunts. Diseases to be aware of. Phytoma49: 492, 14–16.

    Google Scholar 

  • Reeves, J.C., 1997. Recent problems with loose smut in oats and common bunt in wheat inthe Nordic countries. In: G. Brodal, H. Kortema, C. Scheel, K. Sperlingsson & J.D. Hutchins (Eds.), Seed Health Testing; Progress Towards the 21th Century. CAB International, Wallingford, UK.

    Google Scholar 

  • Rubiales, D. & A. Martín,1999. Chromosomal location in H. chilense and expression of common bunt resistance in wheat addition lines. Euphytica 109: 157–159.

    Article  Google Scholar 

  • Rubiales, D., S.M. Reader & A. Martín, 2000. Chromosomal location of resistance toSeptoria tritici in Hordeum chilense determined by the study of chromosomal addition and substitution lines in 'Chinese Spring' wheat. Euphytica 115: 221–224.

    Article  Google Scholar 

  • Sheperd, K.W. & A.K.M.R. Islam, 1987. Cytogenetic manipulation ofbarley chromosomes in a wheat background. In: S. Yasuda & T. Komshi (Eds.), Barley Genetics V, Proc 5th Barley Genet Symp, Okayama, Japan, pp. 375–387.

  • Smeltzer, D.G., 1952. Inheritance of resistance to race T-1 of Tilletia caries inMinturkey and Cooperatorka wheats. Agron J 44: 529–533.

    Article  Google Scholar 

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Authors and Affiliations

  1. Institute of Sustainable Agriculture, CSIC, Apdo. 4084, E-14080, Córdoba, Spain

    D. Rubiales, A. Moral & A. Martín

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  1. D. Rubiales
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  2. A. Moral
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  3. A. Martín
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Rubiales, D., Moral, A. & Martín, A. Chromosome location of resistance to septoria leaf blotch and common bunt in wheat-barley addition lines. Euphytica 122, 369–372 (2001). https://doi.org/10.1023/A:1012952819255

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