Abstract
The chromosome of Agropyron intermedium (Host) Beauv. substituting chromosome 6D has been identified in the karyotype of the Triticum aestivum L. line Multi 6R with the use of C-banding. The alien chromosome, temporarily designated 6Agi, contains gene(s) of the resistance to the Saratov population of Puccinia recondita Rob. ex. Desm. f. tritici. It has been demonstrated that the resistance gene(s) is(are) highly efficient and that chromosome 6Agi is preferably transferred through gametes
Similar content being viewed by others
REFERENCES
Tsitsin, N.V., Problem of Winter and Perennial Wheats, in Pshenichno-pyreinye gibridy (Wheat-Agropyron Hybrids), Moscow: Sel’khozgiz, 1935.
Tsitsin, N.V., Grain and Forage Hybrids of Wheat and Agropyron, in Gibridy otdalennykh skreshchivanii i poliploidy (Hybrids from Distant Crosses and Polyploids), Moscow: Akad. Nauk SSSR, 1964, pp. 31–36.
Yachevskaya, G.L., Refined Genetic Structure of Incomplete Wheat-Agropyron Amphidiploids (2n = 56), in Sovershenstvovanie selektsionno-geneticheskikh metodov pri vyvedenii sortov zernovykh i kormovykh kul’tur dlya Nechernozem’ya (Improvement of Genetic and Breeding Methods during Construction of Grain and Forage Cultivars for Nechernozem’ye), Moscow: Kolos, 1984, pp. 94–102.
Sinigovets, M.E., Cytogenetic Structure of 56-Chromosome Wheat-Wheat-Grass Hybrids (Triticum aestivum × Elutrigia intermedia), Genetika, 1987, vol. 23, no.5, pp. 854–862.
Sharma, D. and Knott, D.R., The Transmission of Leaf Rust Resistance from Agropyron to Triticum by Irradiation, Can. J. Genet. Cytol., 1966, vol. 8, pp. 137–143.
Sears, E.R., Agropyron-Wheat Transmissions Induced by Homoeologous Pairing, Proc. 4th Int. Wheat Genet. Symp., Columbia, Miss.: 1973, pp. 191–199.
Wienhues, A., Translocations between Wheat Chromosomes and an Agropyron Chromosome Conditioning Rust Resistance, Proc. 4th Int. Wheat Genet. Symp., Columbia, Miss.: 1973, pp. 201–207.
Friebe, B., Jiang, J., Gill, B.S., and Dyck, P.L., Radiation-Induced Nonhomoeologous Wheat-Agropyron intermedium Chromosomal Translocations Conferring Resistance to Leaf Rust, Theor. Appl. Genet., 1993, vol. 86, pp. 141–149.
Syukov, V.V., Genetics Aspects of Breeding in Spring Bread Wheat in the Central Volga Region, Extended Abstract of Doctoral (Biol.) Dissertation, Saratov, 2003.
Sinigovets, M.E., Cytogenetic Basis of the Use of Agropyron in Wheat Breeding, Extended Abstract of Doctoral (Biol.) Dissertation, Kiev, 1988.
Badaev, N.S., Badaeva, E.D., Bolsheva, N.L., et al., Cytogenetical Analysis of Forms Produced by Crossing Hexaploid Triticale with Bread Wheat, Theor. Appl. Genet., 1985, vol. 70, pp. 536–541.
Sears, E.R., The Aneuploids of Bread Wheat, Res. Bull. Mis. Agric. Exp. Stat., 1954, vol. 572, pp. 1–58.
Millet, E., Avivi, Y., Zaccai, M., and Feldman, M., The Effect of Substitution of Chromosome 5S of Aegilops longissima for Its Wheat Homoeologue on Spike Morphology and on Several Quantitative Traits, Genome, 1988, vol. 30, pp. 473–478.
Dvorak, J., Meiotic Pairing between Single Chromosomes of Diploid Agropyron elongatum and Decaploid A. elongatum in Triticum aestivum, Can. J. Genet. Cytol., 1975, vol. 17, pp. 329–336.
Stupina, N.V., Lobachev, Yu.V., and Sibikeev, S.N., Parameters of Ear Productivity of Bread Wheat-Alien Lines, Ann. Wheat Newslett., 2004, vol. 50, p. 107.
Shchapova, A.I., Silkova, O.G., and Kravtsova, L.A., Transmission Rate of Chromosomes 5A, 5D, and 5R through Gametes of Wheat-Rye Di-Monosomics, Rus. J. Genet., 1995, vol. 31, no.11, pp. 1299–1303.
Silkova, O.G., Role of Chromosomes of the Fifth Homeologous Group of Wheat and Rye in Regulating the Segregation Type of Univalents and the Rate of Their Transmission through Gametes in Aneuploid Forms, Extended Abstract of Cand. Sci. (Biol.) Dissertation, Novosibirsk, 1999.
Silkova, O.G. and Shchapova, A.I., The Different Transmission of Homoeologous Univalent Chromosomes 5R, 5A and 5D via Eggs and Pollen in the Wheat-Rye Aneuploids, Cereal Res. Commun., 2003, vol. 31, pp. 57–64.
Skurygina, T.A., Highly Effective Genes of Resistance to Brown Rust and Powdery Mildew Populations in Bread Wheat Lines Derived from T. timopheevii Zhuk. and Their Identification, in Selektsionno-geneticheskaya kharakteristika sortov pshenits: Sbornik nauchnykh trudov po prikladnoi botanike, genetike i selektsii (Breeding and Genetic Characterization of Wheat Cultivars: A Collection of Works on Applied Botany, Genetics, and Breeding), Leningrad: Vses. Inst. Rastenievod., 1984, vol. 85, pp. 3–5.
Tsujimoto, H., Gametocidal Genes in Wheat and Its Relatives: IV. Functional Relationships between Six Gametocidal Genes, Genome, 1995, vol. 38, pp. 283–289.
Endo, T.R. and Katayama, Y., Finding a Selectively Retained Chromosome of Aegilops caudata L. in Bread Wheat, Wheat Inf. Serv., 1978, vols. 47–48, pp. 32–35.
Endo, T.R., Induction of Chromosome Structural Changes by Chromosome of Aegilops cylindrica L. in Bread Wheat, J. Hered., 1988, vol. 79, pp. 366–370.
Zhang, H.B. and Dvorak, J., Characterization and Distribution of an Interspersed Repeated Nucleotide Sequence from Lophopyrum elongatum and Mapping of Segregation Distortion Factor with It, Genome, 1990, vol. 33, pp. 927–930.
Vdovychenko, Zh., Antonyuk, M., and Ternovskaya, T., Influence of Gametocidal Chromosome 4Sl on the Segregation Ratio in Genetic Analysis of the Bread Wheat Lines, Proc. 10th Int. Wheat Genet. Symp., Paestum, Italy, 2003, pp. 649–651.
Marais, G.F., Preferential Transmission in Bread Wheat of a Chromosome Segment Derived from Thinopyrum distichum (Thunb.) Love, Plant Breed., 1990, vol. 104, pp. 152–159.
Prins, R., Marais, G.F., Pretorius, Z.A., et al., A Study of Modified Forms of the Lr19 Translocation of Bread Wheat, Theor. Appl. Genet., 1997, vol. 95, pp. 424–430.
Ternovskaya, T.K. and Vdovichenko, Zh.V., Results of Genetic Analysis of Self-Pollinating Cereals on the Nature of the Mapping Population, Tsitol. Genet., 2003, no. 3, pp. 67–79.
Badaeva, E.D., Prokofieva, Z.D., Bilinskaya, E.N., et al., Cytogenetic Analysis of Hybrids Resistant to Yellow Rust and Powdery Mildew Obtained by Crossing Bread Wheat (Triticum aestivum L., AABBDD) with Wheats of the Timopheevii Group (AtAtGG), Rus. J. Genet., 2000, vol. 36, no.12, pp. 1401–1410.
McIntosh, R.A., Yamazaki, Y., Devos, K.M., et al., Cataloque of Gene Symbols for Wheat, Proc. 10th Int. Wheat Genet. Symp., Paestum, Italy, 2003, pp. 115–118.
Author information
Authors and Affiliations
Additional information
__________
Translated from Genetika, Vol. 41, No. 8, 2005, pp. 1084–1088.
Original Russian Text Copyright © 2005 by Sibikeev, Krupnov, Voronina, Badaeva.
Rights and permissions
About this article
Cite this article
Sibikeev, S.N., Krupnov, V.A., Voronina, S.A. et al. Identification of an Alien Chromosome in the Bread Wheat Line Multi 6R. Russ J Genet 41, 885–889 (2005). https://doi.org/10.1007/s11177-005-0176-8
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/s11177-005-0176-8