Summary
The genetic nature of resistance to four Australian strains of Puccinia recondita was studied in the cultivar Timgalen and in three entries of the 1963 ISWRN, viz, 25 (W3300) 318 (W3301) and 409 (W3303). Seedling resistance of Timgalen was controlled by the dominant gene Lr3 and by a recessive gene, tentatively designated lrT. A third gene, identical with one in C.I.12632, was operating in adult plants only.
In each of the three varieties W3300, W3301, W3303 the same dominant and the same recessive gene were operating in seedlings. The former may be identical with a major gene previously reported in Klein Titan, Frontana and Rio Negro. The latter gene was different from lrT of Timgalen. In addition, W3301 and W3303 each carried a dominant factor being only operative in the mature plant stage.
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References
Anderson, R. G., 1963. Studies on the inheritance of resistance to leaf rust of wheat. Proc. 2nd int. Wheat Genet. Symp. Lund 1963, p. 144–155.
Athwal, D. S. & Watson, A. I., 1957. Inheritance studies with certain leaf rust resistant varieties of Triticum vulgare Vill. Proc. Linn. Soc. N.S.W. 82: 272–284.
Boyd, W. J. R., 1966. Problems in the interpretation of the inheritance of leaf rust resistance in the common wheat. J. Theor. Biol. 13: 283–294.
Dyck, P. L. & Samborski, D. J., 1968. Host-parasite interactions involving two genes for leaf rust resistance in wheat. Proc. 3rd int. Wheat Genet. Symp. aust. Acad. Sci., Canberra 1968, p. 245–250.
Dyck, P. L., Samborski, D. J. & Anderson, R. G., 1966. Inheritance of adult plant leaf rust resistance derived from the common wheat varieties Exchange and Frontana. Can. J. Genet. Cytol. 8: 665–671.
Knott, D. R. & Shen, I-Sun., 1961. The inheritance of rust resistance. VII. The inheritance of resistance to races 15B and 56 of stem rust in eleven common wheat varieties of diverse origin. Can. J. Pl. Sci. 41: 587–600.
Luig, N. H., 1964. Heterogeneity in segregation data from wheat crosses. Nature, 204: 260–261.
Luig, N. H., 1968. Mechanisms of differential transmission of gametes in wheat. Proc. 3rd int. Wheat Genet. Symp. Aust. Acad. Sci., Canberra 1968, p. 322–323.
Macindoe, S. L., 1948. The nature and inheritance to stem rust of wheat, Puccinia graminis tritici, possessed by several parents. Sci. Bull. N.S.W. Dep. Agric. 69.
McGinnis, R. C. & Boyd, W. J. R., 1963. A monosomic analysis of leaf rust resistance in five varieties of Triticum aestivum L. Proc. 11th int. Congr. Genet., p. 226.
McIntosh, R. A. & Baker, E. P., 1966. Chromosome location of mature plant leaf rust resistance in Chinese Spring wheat. Aust. J. biol. Sci. 19: 943–944.
Nyquist, W. E., 1957. Inheritance of resistance to leaf rust in hybrids involving a common wheat strain derived from Triticum timopheevi. Agron. J. 49: 240–243.
Rajaram, S., Luig, N. H. & Watson, I. A., 1970. Genetic analysis of stem rust resistance in three cultivars of wheat. Euphytica 20: 435–440.
Watson, I. A. & Luig, N. H., 1961. Leaf rust on wheat in Australia: A systematic scheme for the classification of strains. Proc. linn. Soc. N.S.W. 86: 241–250.
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Rajaram, S., Luig, N.H. & Watson, I.A. The inheritance of leaf rust resistance in four varieties of common wheat. Euphytica 20, 574–585 (1971). https://doi.org/10.1007/BF00034213
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DOI: https://doi.org/10.1007/BF00034213