Abstract
Hordeum chilense exhibits resistance to Septoria tritici. Addition and substitution lines of H. chilensein wheat were utilized in growth chamber and field experiments to determine which H. chilense chromosomes carry resistance genes. Resistance is conferred by gene(s) on chromosome 4 and, to a minor extent, by genes on chromosomes 5, 6 and 7.
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Ahmed, H.U., C.C. Mundt, M.E. Hoffer & S.M. Coakley, 1996. Selective influence of wheat cultivars on pathogenicity of Mycosphaerella graminicola (anamorph Septoria tritici). Phytopathology 86: 454-458.
Dubin, H.J. & S. Rajaram, 1996. Breeding disease-resistant wheats for tropical highlands and lowlands. Annu Rev Phytopathol 34: 530-526.
Fernández, J.A. & N. Jouve, 1988. The addition of Hordeum chilense chromosomes to Triticum turgidum conv. durum: Biochemical, karyological and morphological characterization. Euphytica 37: 247-259.
Eyal, Z., A.L. Scharen, J.M. Prescott & M. van Ginkel, 1987. The Septoria Diseases of Wheat: Concepts and Methods of Disease Management. CIMMYT, México.
Hernández, P., A. Martín & G. Dorado, 1999. Development of SCARs by direct sequencing of RAPD products: a practical tool for the introgression and marker-assisted selection of wheat. Molecular Breeding 5: 233-244.
Kema, G.H.K, R. Sayoud, J.G. Annone & C.H. Van Silfhout, 1996. Genetic variation for virulence and resistance in wheat-Mycosphaerella graminicola pathosystem II. Analysis of interactions between pathogen isolates and host cultivars. Phytopathology 86: 213-220.
Martín, A. & J.I. Cubero, 1981. The use of Hordeum chilense in cereal breeding. Cereal Res Comm 9: 317-323.
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. Kluwer Academic Publishers, Dordrecht.
Miller, T.E., S.M. Reader & V. Chapman, 1982. The addition of Hordeum chilense chromosomes to wheat. In: Induced Variability in Plant Breeding, pp, 79-81. Eucarpia, Int Symp 1981, Pudoc, Wageningen.
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.
Nicholson, P., H.N. Rezanoor & A.J. Worland, 1993. Chromosomal location of resistance to Septoria nodorum in a synthetic hexaploid wheat determined by the study of chromosomal substitution lines in 'Chinese Spring' wheat. Plant Breeding 110: 177-184.
Rillo, A.O., R.M. Caldwe H & D.V. Glover, 1970. Cytogenetics of resistance to wheat leaf blotch (Septorta tritici) in backcross derivatives of an Agroticum line. Crop Sci 10: 223-227.
Rubiales, D., J. Ballesteros & A. Martín, 1992. Resistance to Septoria tritici in Hordeum chilense x Triumm spp. amphiploids. Plant Breeding 109: 281-286.
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Rubiales, D., Reader, S. & Martín, A. Chromosomal location of resistance to Septoria tritici in Hordeum chilense determined by the study of chromosomal addition and substitution lines in `Chinese Spring' wheat. Euphytica 115, 221–224 (2000). https://doi.org/10.1023/A:1004097830103
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DOI: https://doi.org/10.1023/A:1004097830103