Summary
A study was undertaken to evaluate the breeding behaviour and to identify a spontaneously produced putative chromosomal deletion in the winter wheat (Triticum aestivum L. em. Thell.) cv Norstar. Male and female transmission studies of plants heterozygous for the deletion chromosome indicated 9.5% and 48.8% transmission through the pollen and the egg, respectively. Meiotic analyses of progeny from deletion heterozygotes indicated that the deletion chromosome was eliminated from half of the plants, which agreed with the male and female transmission frequencies. Testcrosses of the deletion chromosome with telocentrics and nullisomic-tetrasomic combinations suggested that the deletion involved the long arm of chromosome 5D. This was confirmed by restriction fragment length polymorphism (RFLP) analysis. Also, monosomic plants obtained in progeny of deletion heterozygotes were shown to be monosomic for 5D. Studies of plants homozygous for the deletion showed relatively normal pairing between the deletion chromosomes, and with the short arm (5DS), but not the long arm (5DL). Deletion homozygotes were self-sterile, and morphologically similar to plants nullisomic for 5D, but plants that also contained 5DL, or a homoeologous chromosome were self-fertile and had normal morphology. Studies of chromosome morphology indicated that the deletion chromosome was metacentric, and the length of the long arm was reduced by approximately 60%. RFLP studies showed that, in terms of genetic distance, 90% of the arm was missing.
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References
Clarke, B., P. Stancombe, T. Money & G. Moore, 1992. Targeting deletion (homoeologous chromosome pairing locus) or addition line single copy sequences from cereal genomes. Nucl. Acids Res. 20:1289–1292.
Curtis, C.A. & A.J. Lukaszewski, 1991. Genetic linkage between C-bands and storage protein genes in chromosome1B of tetraploid wheat. Theor. Appl. Genet. 81:245–252.
Devos, K.M., M.D. Atkinson, C.N. Chinoy, C.J. Liu & M.D. Gale, 1992. RFLP based genetic map of the homoeologous group 3 chromosomes of wheat and rye. Theor. Appl. Genet. 83:931–939.
Giorgi, B., 1981. A line with a deletion in the long arm of chromosome 6B isolated inTriticum aestivum cv. Chinese Spring. Wheat Inf. Serv. 50:22–23.
Hohmann, U., T.R. Endo, K.S. Gill & B.S. Gill, 1994. Comparison of genetic and physical maps of group 7 chromosomes fromTriticum aestivum L. Mol. Gen. Genet. 245:644–653.
Kota, R.S. & J. Dvorak, 1986. Mapping of a chromosome pairing gene and 5S rRNA genes inTriticum aestivum L. by a spontaneous deletion in chromosome arm 5Bp. Genome 28:266–271.
Lukaszewski, A.J. & C.A. Curtis, 1993. Physical distribution of recombination in B-genome chromosomes of tetraploid wheat. Theor. Appl. Genet. 86:121–127.
McFadden, E.S. & E.R. Sears, 1946. The origin ofTriticum spelta and its free-threshing hexaploid relatives. J. Hered. 37:81–89.
McIntosh, R.A., 1988. Catalogue for gene symbols for wheat. p. 1225–1323. In: T.E. Miller & R.M.D. Koebner (Eds). Proceedings of the 7th International Wheat Genetics Symposium. IPSR. Cambridge, UK.
McIntosh, R.A. & J.E. Cusick, 1987. Linkage map of hexaploid wheat. p. 289–297. In: E.G. Heyne (Ed). Wheat and Wheat Improvement. Agronomy Monograph No. 13 (2nd edn.).
Miller, T.E. & S.M. Reader, 1982. A major deletion of part of chromosome 5A ofTriticum aestivum. Wheat Inf. Serv. 55:10–12.
Payne, P.I., L.M. Holt, J. Hutchinson & M.D. Bennett, 1984. Development and characterization of a line of bread wheat,Triticum aestivum, which lacks the short-arm satellite of chromosome 1 B and the Gli-B1 locus. Theor. Appl. Genet. 68:327–334.
Sears, E.R., 1954. The aneuploids of common wheat. Missouri Agr. Exp. Stn. Res. Bull. 572:59 pp.
Sears, E.R., 1976. A synthetic hexaploid wheat with fragile rachis: Wheat Inf. Serv. 41-42:31–32.
Sharp, P.J., M. Kreis, P.R. Shewry & M.D. Gale, 1988. Location of β-amylase sequences in wheat and its relatives. Theor. Appl. Genet. 75:286–290.
Snape, J.W., R.B. Flavell, M. O'Dell, W.G. Hughes & P.I. Payne, 1985. Intrachromosomal mapping of the nucleolar organiser region relative to three marker loci on chromosome 1 B of wheat (Triticum aestivum). Theor. Appl. Genet. 69:263–270.
Tsujimoto, H. & K. Noda, 1990. Deletion mapping by gametocidal genes in common wheat: position of speltoid suppression (Q) and β-amylase (β-Amy-A2) genes on chromosome 5A. Genome 33:850–853.
Wemer, J.E., T.R. Endo & B.S. Gill, 1992. Toward a cytogenetically based physical map of the wheat genome. Proc. Natl. Acad. Sci. 89:11307–11311.
Whelan, E.D.P., 1990. Meiotic abnormalities in primary regenerants from callus culture of immature embryos of ‘Norstar’ winter wheat. Genome 33:260–266.
Whelan, E.D.P. & E.G. Kokko, 1992. Scanning electron microscopy of chromosomes of common wheat. Genome 35:166–169.
Xie, D.X., K.M. Devos, G. Moore & M.D. Gale, 1993. RFLP-based genetic maps of the homoeologous group 5 chromosomes of bread wheat (Triticum aestivum L.). Theor. Appl. Genet. 87: 70–74.
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Atkinson, M.D., Whelan, E.D.P. & Miller, T.E. Identification and breeding behaviour of a major deletion of chromosome 5D ofTriticum aestivum . Euphytica 84, 189–195 (1995). https://doi.org/10.1007/BF01681811
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DOI: https://doi.org/10.1007/BF01681811