Summary
By producing chromosome substitutions with ‘Imperial rye’ chromosomes 4R (C) and 7R (D) in the wheat cultivar ‘Chinese Spring’ two spontaneous translocation lines were obtained. One involves segments of wheat chromosome 4A and rye chromosome 7R, the other involves portions of wheat chromosome 7B and rye chromosome 4R
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Literature
Acosta, C.A. (1961): The transfer of stem rust resistance from rye to wheat. Ph. D. thesis, University of Missouri
Barber, H.H.; Driscoll, C.J.; Long, P.M.; Vickery, R.S. (1968): Protein genetics of wheat and homoeologous relationships of chromosomes. Nature 218, 450–452
Bartoš, P.; Valcoun, J.; Kosner, J.; Slovencikova, V. (1973): Rust resistance of some European wheat cultivars derived from rye. Proc. 4th. Intern. Wheat. Genet. Symp., pp. 145–146, Missouri Agric. Exper. Station, Columbia, MO.
Bielig, L.M.; Driscoll, C.J. (1970a): Substitution of rye chromosome 5RL for chromosome 5B of wheat and its effect on chromosome pairing. Genetics 65, 241–247
Bielig, L.M.; Driscoll, C.J. (1970b): Substitution of rye chromosome 5R for its three wheat homoeologues. Genet. Res. 16, 317–323
Darvey, N.L. (1979): Rapid methods for the production of triticale and for alien incorporation into wheat. Proc. 5th Intern. Wheat Genet. Symp., Vol. 2, pp. 1144–1153, Indian Soc. Genet. Plant Breed.: New Delhi
Dhaliwal, H.S.; Gill, B.S.; Waines, J.G. (1977): Analysis of induced homoeologous pairing in a ph mutant wheat X rye hybrid. J. Hered. 68, 206–209
Driscoll, C.J. (1968): Alien transfer by irradiation and meiotic control. Proc. 3rd Intern. Wheat Genet. Symp., Austr. Acad. Sci., (Canberra) 196–203
Driscoll, C.J.; Jensen, N.F. (1964): Characteristics of leaf rust resistance transferred from rye to wheat. Crop Sci. 4, 372–374
Driscoll, C.J.; Sears, E.R. (1965): Mapping of a wheat-rye translocation. Genetics 51, 439–443
Driscoll, C.J.; Bielig, L.M.; Darvey, N.L. (1979): An analysis of frequencies of chromosome configurations in wheat and wheat hybrids. Genetics 91, 755–767
Dvořák, J. (1977): Effect of rye on homoeologous chromosome pairing in wheat x rye hybrids. Can. J. Genet. Cytol. 19, 549–556
Gupta, P.K. (1971): Homoeologous relationship between wheat and rye chromosomes. Genetica 42, 199–213
Hart, G.E. (1973): Homoeologous gene evolution in hexaploid wheat. Proc. 4th Intern. Wheat Genet. Symp., pp. 805–810, Missouri Agric. Exper. Station, Columbia, MO
Hart, G.E. (1978): Chromosomal arm locations of Adh-R1 and an acid phosphatase structural gene in Imperial rye. Cereal Res. Comm. 6, 123–133
Jagannath, D.R.; Bhatia, C.R. (1972): Effect of rye chromosome 2 substitution on kernel protein content of wheat. Theor. Appl. Genet. 42, 89–92
Joshi, B.C.; Singh, D. (1979): Introduction of alien variation into breed wheat. Proc. 5th Intern. Wheat Genet. Symp., Vol. 1, pp. 342–348, Indian Soc. Genet. Plant Breed.: New Delhi
Koller, O.L.; Zeller, F.J (1976): The homoeologous relationships of rye chromosomes 4R and 7R with wheat chromosomes. Genet. Res. 28, 177–188
Lacadena, J.-R. (1967): Introduction of alien variation into wheat by gene recombination. 1. Crosses between mono-V (5B) of Triticum aestivum L. and Secale cereale L. and Aegilops columnaris Zhuk. Euphytica 16, 221–230
Law, C.N. (1966): The location of genetic factors affecting a quantitative character in wheat. Genetics 53, 487–498
Lelley, T. (1976): Induction of homoeologous pairing in wheat by genes of rye suppressing chromosome 5B effect. Can. J. Genet. Cytol. 18, 485–489
Lelley, T.; Larter, E.N. (1980): Meiotic regulation in triticale: interaction of the rye genotype and specific wheat chromosomes on meiotic pairing in the hybrid. Can. J. Genet. Cytol. 22, 1–6
Luig, N.H.; Watson, I.A. (1976): Strains of Puccinia graminis virulent on wheat plants carrying gene Sr27 derived from Imperial rye. Phytopathology 66, 664–666
Martin, T.J.; Harvey, T.L.; Livers, R.W. (1976): Resistance to wheat streak mosaic virus and its vector, Aceria tulipae. Phytopathology 66, 346–349
May, C.E.; Appels, R. (1978): Rye chromosome 2R substitution and translocation lines in hexaploid wheat. Cereal Res. Comm. 6, 231–234
May, C.E.; Appels, R. (1980): Rye chromosome translocations in hexaploid wheat: a re-evaluation of the loss of heterochromatin from rye chromosomes. Theor. Appl. Genet. 56, 17–23
Melnyk, J.; Unrau, J. (1959): Pairing between chromosomes of Aegilops squarrosa L. var. ‘typica’ and Secale cereale L. var. ‘Prolific’. Can. J. Genet. Cytol. 1, 21–25
Mettin, D.; Blüthner, W.D.; Schlegel, G. (1973): Additional evidence on spontaneous 1B/1R wheat-rye substitutions and translocations. Proc. 4th Intern. Wheat Genet Symp., pp. 179–184, Missouri Agric. Exper. Station, Columbia, MO
Mettin, D.; Schlegel, R.; Blüthner, W.D.; Weinrich, M. (1976): Giemsa-banding von MI-Chromosomen bei Weizen-Roggen-Bastarden. Biol. Zbl. 95, 35–41
Muramatsu, M. (1968): Studies on translocations between hairy neck chromosome of rye and chromosomes which belong to homoeologous group 5 of common wheat. Proc. XIIth Int. Congr. Genet. 1, 180
Nakajima, G.; Zennyozi, A (1966): Cytogenetics of wheat and rye hybrids. Seiken Ziho 18, 39–48
Riley, R. (1960): The diploidisation of polyploid wheat. Heredity 15, 407–429
Riley, R.; Kimber, G. (1966): The transfer of alien genetic variation to wheat. Rep. Plant Breed. Inst. 1964–1965, 6–63
Rowland, G.G.; Kerber, E.R. (1974): Telocentric mapping in hexaploid wheat of genes for leaf resistance and other characters derived from Aegilops squarrosa. Can. J. Genet. Cytol. 16, 137–144
Sánchez-Monge, R.; Delibes, A.; Hernández-Lucas, C.; Carbonero, P.; Garcia-Olmedo, F. (1979): Homoeologous chromosomal location of the genes encoding thionin in wheat and rye. Theor. Appl. Genet. 54, 61–63
Schlegel, R.; Weryszko, E. (1979): Intergeneric chromosome pairing in different wheat-rye hybrids revealed by the Giemsa banding technique and some implications on karyotype evolution in the genus Secale. Biol. Zbl. 98, 399–407
Sears, E.R. (1967): Induced transfer of hairy neck from rye to wheat. Z. Pflanzenzücht. 57, 4–25
Sears, E.R. (1972): Chromosome engineering in wheat. Stadler Genet. Symp. 4, 23–38
Sears, E.R. (1973): Translocation through union of newly formed telocentric chromosomes. Genetics 74, s247
Sears, E.R. (1977): An induced mutant with homoeologous pairing in common wheat. Can. J. Genet. Cytol. 19, 585–593
Shepherd, K.W. (1973): Homoeology of wheat and alien chromosomes controlling endosperm protein phenotypes. Proc. 4th Intern. Wheat Genet. Symp., 745–760, Missouri Agric. Exper. Station, Columbia, MO
Stewart, D.M.; Gilmore, Jr., E.C.; Ausemus, E.R. (1968): Resistance to Puccinia graminis derived from Secale cereale incorporated into Triticum aestivum. Phytopathology 58, 508–511
Sutka, J. (1977): The association of genes for purple coleoptile with chromosomes of the wheat variety Mironovskaya 808. Euphytica 26, 475–479
Tang, K.S.; Hart, G.E. (1975): Use of isozymes as chromosome markers in wheat-rye addition lines and in triticale. Genet. Res. 26, 187–201
Zeller, F.J. (1973): 1B/1R wheat-rye chromosome substitutions and translocations. Proc. 4th Intern. Wheat Genet. Symp., pp. 209–221 Missouri Agric. Exper. Station, Columbia, MO
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Zeller, F.J., Koller, O.L. Identification of a 4A/7R and a 7B/4R wheat-rye chromosome translocation. Theoret. Appl. Genetics 59, 33–37 (1981). https://doi.org/10.1007/BF00275773
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DOI: https://doi.org/10.1007/BF00275773