Obtaining of Interspecific Hybrids between Durum Wheat (2n=28) and Triticale (2n=42) and Molecular Evidence of Alien Introgressions in Advanced Backcross Line
Abstract
The hexaploid triticale is an amphidiploid obtained from the cross between durum wheat (2n=28) and rye (2n=14). It is characterizes with high protein content, resistance to biotic- (powdery mildew and rust) and abiotic (cold and drought) stress factors. The hybridization between durum wheat and triticale is complicated and is rarely applied in durum wheat breeding improvement. Here, we report the results of long-standing experiments for obtaining of interspecific hybrids between Bulgarian durum wheat genotypes as mother plants and triticale (2n=42) lines from CIMMYT – Mexico. Although the crossability between two species was relatively high, hybrid plants were obtained only by means of embryo rescue method, due to endosperm degeneration. All regenerated F1 hybrids were with low fertility and produced seeds with reduced endosperm and low viability. The F1 hybrids were backcrossed to the recurrent durum wheat genotypes. Strict and repeated selection of plants with durum wheat phenotype was performed in the segregation populations. Thirty-three SSRs mapped on the A, B and D genomes and chromosomes of common wheat were used for molecular characterization of one of the obtained advanced backcross lines. The SSR markers showed introgression of 10 chromatin segments from triticale in the studied backcross line in loci on chromosomes of several groups - 1 (Хwmc 24-1AS, Xgwm 136-1АS, Xgwm 268-1BL), 2 (Xgwm 95-2AS), 3 (Xgwm 5-3АS), 4 (Xgwm 165-4AS, Xgwm 165-4BL) and 7 (Хwmc 9-7AL, Хwmc 83-7AS и Xgwm 400-7BS). In addition to introgressions, new recombinant alleles, which did not correspond correctly to the alleles of both parents, were detected in loci on chromosomes of 7 group (Xgwm 282-7AL, Хwmc 83-7AS, Xgwm 46-7BS, Xgwm400-7ВS) and in loci on chromosomes 2АL (Xgwm 312), 5AL (Xwmc 327) and 6BL (Xgwm644)
Keywords
durum wheat triticale interspecific hybridization embryo rescue method SSR markers introgressions
References
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- Bizimungu, B., Collin, J., Comeau, A., St-Pierre, C.A., 1998. Hybrid necrosis as a barrier to gene transfer in hexaploid winter wheat × triticale crosses. Can. J. Plant Sci., 78(2): 239-244.
- Ehdaie, B., Whitkus, R. W., Waines, J. G., 2003. Root Biomass, Water-Use Efficiency, and Performance of Wheat–Rye Translocations of Chromosomes 1 and 2 in Spring Bread Wheat ‘Pavon’. Crop Science, 43:710-717.
- Gupta, D., Mittal, R.K., Kant, A., Singh, M., 2007. Association studies for agro- physiological and quality traits of triticale X bread wheat derivatives in relation to drought and cold stress, Journal of Environmental Biology, 28(2):265-269
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- Hede, A., Skovmand, B., Bohorova, N., 2000, Effect of genotype and growing medium on primary triticale production, Proceedings of the 6th International Wheat Conference, 5– 9 June 2000, Budapest, Hungary, 307
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- Shen, X. Kong, L., Ohm, H., 2004. Fusarium head blight resistance in hexaploid wheat (Triticum lines and tagging of the alien chromatin by PCR markers. Theor. Appl. Genet. 108(5): 808-813.
- Todorovska, E., Hadjiivanova, B., Bozhanova, V., Dechev, D., Muhovski, Y., Panchev, I., Abu- Mhadi, N., Peycheva, V., Ivanova, A., 2013. Molecular and phenotypic characterization of advanced backcross lines derived from interspecific hybridization of durum wheat, Biotechnol. & Biotechnol. Eq. 27(3), 3760- 3771.
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Obtaining of Interspecific Hybrids between Durum Wheat (2n=28) and Triticale (2n=42) and Molecular Evidence of Alien Introgressions in Advanced Backcross Line
Abstract
Keywords
References
- Baeva, R., Christova, J., Sabeva, Z., 1981, Stufy of relationship between triticale and genus Triticum and Secale, In: Proceedings of Jubilee Session “Genetic and Cytogenetic in plants”, Sofia, Bulgaria, 185-200
- Bizimungu, B., Collin, J., Comeau, A., St-Pierre, C.A., 1998. Hybrid necrosis as a barrier to gene transfer in hexaploid winter wheat × triticale crosses. Can. J. Plant Sci., 78(2): 239-244.
- Ehdaie, B., Whitkus, R. W., Waines, J. G., 2003. Root Biomass, Water-Use Efficiency, and Performance of Wheat–Rye Translocations of Chromosomes 1 and 2 in Spring Bread Wheat ‘Pavon’. Crop Science, 43:710-717.
- Gupta, D., Mittal, R.K., Kant, A., Singh, M., 2007. Association studies for agro- physiological and quality traits of triticale X bread wheat derivatives in relation to drought and cold stress, Journal of Environmental Biology, 28(2):265-269
- Hadzhiivanova, B., Bozhanova, V., Dechev, D., 2012, Interspecific Hybridization Between Durum Wheat аnd Aegilops Umbellulata (Zhuk.), Bulgarian Journal of Agricultural Science. 18(5): 713-721
- Hede, A., Skovmand, B., Bohorova, N., 2000, Effect of genotype and growing medium on primary triticale production, Proceedings of the 6th International Wheat Conference, 5– 9 June 2000, Budapest, Hungary, 307
- Hills, M., Hills, J, Hall, L., M., Messenger, D., F., Graf, R. J., Beres, B., L., Eudes, F., 2007. Evaluation of crossability between triticale (X Triticosecale Wittmack) and common wheat, durum wheat and rye, Environ. Biosafety Res., 6:249–257
- Hysing, S.C., Hsam Sai, L.K., Singh Ravi, P., Huerta- Espino, J., Byod, L.A., 2007. Agronomic performance resistance translocation lines. Crop Sci. 47: 254-260 wheat-rye in T2BS.2RL
- Jiang, J., Friebe, B., Gill, B.S., 1994. Recent advances in wheat. Euphytica, 73: 199-212. transfer in
- Kumar, S., Mittal, R.K., Dhiman, R., Gupta, D., 2014. Assessment of Triticale (Triticosecale) X Bread Genotypes for Drought Tolerance Based on Morpho-Physiological, Grain Yield and Drought Tolerance Indices Under Non- Irrigated International Journal of Food Science, Nutrition and Dietetics. 3: 502 Aestivum) and Environments,
- Lukaszewski, A. J. and Gustafson, J. P., 1983. and Translocations chromosomes of triticale × wheat hybrids. Theor. Appl. Genet. 64: 230–248. of
- Merker, A., 1984. The rye genome in wheat breeding. Hereditas 100: 183-191.
- Mujeeb-Kazi, A., Kimber, G., 1985. The production, cytology and practicality of wide hybrids in the Communication. 13: 111-124. Research
- Murray, M.G., Thompson, W.F., Rapid isolation of high molecular weight plant DNA.Nucleic Acids Res. 8(19):4321–4325.
- Nkongolo, K. K. C., St-Pierre, C. A., Comeau, A., 1991. Effect of parental genotypes, cross direction crossability of bread wheat with triticale and on the viability of F1 embryos. Ann. Appl. Biol. 118: 161–168. on the
- Reynolds, M., Bonnett, D., Chapman, S., C., Furbank, R., T., Manes, Y., Mather, D., E., Parry, M., A., 2011. Raising yield potential of wheat. I. Overview of a consortium approach JOURNAL BOTANY 62: 439-452. strategies. OF EXPERIMENTAL Tixier M H, Leroy P, Ganal M W. 1998. A microsatellite map of wheat. Genetics, 149: 2007-2023.
- Saulescu, N. N, Ittu, G., Ciuca, M., Ittu, M., Serban, G., Mustatea, P., 2011. Transferring useful rye genes to wheat, using triticale as a bridge Czech J. Genet. Pl. Breed. 47: 56-62.
- Sethi, G.S., 1989. Towards the introgression of rye wheat genes Advances in Plant Biotechnology (Mujeeb- Kazi A and Sitch CA. eds.), 2nd International Symposium on Genetic Manipulation in Crops, Mexico, D.F., Mexico and Manila, Philippines: CIMMYT and IRRI, 145-155.
- Shen, X. Kong, L., Ohm, H., 2004. Fusarium head blight resistance in hexaploid wheat (Triticum lines and tagging of the alien chromatin by PCR markers. Theor. Appl. Genet. 108(5): 808-813.
- Todorovska, E., Hadjiivanova, B., Bozhanova, V., Dechev, D., Muhovski, Y., Panchev, I., Abu- Mhadi, N., Peycheva, V., Ivanova, A., 2013. Molecular and phenotypic characterization of advanced backcross lines derived from interspecific hybridization of durum wheat, Biotechnol. & Biotechnol. Eq. 27(3), 3760- 3771.
- Villareal, R.L., Bañuelos, O., Mujeeb-Kazi, A., Rajaram, S., 1998. Agronomic performance of nearisolines in spring bread wheat Seri M82. Euphytica 103:195–202. T1BL.1RS
- Wang J., Singh R.P., Braun H.J., Pfeiffer W.H., 2009. Investigating the efficiency of the single backcrossing breeding strategy through computer simulation. Theor. Appl. Genet. 118, 683-694. Zhang L.Y., Bernard, M., Leroy, P., Feuillet, C., Sourdille, P., 2005. High transferability of bread wheat EST-derived SSRs to other cereals. Theor Appl Genet. 111(4):677-87.
Details
| Primary Language | Turkish |
|---|---|
| Journal Section | Research Articles |
| Authors | |
| Publication Date | March 1, 2014 |
| Submission Date | January 26, 2015 |
| Published in Issue | Year 2014 Volume: 1 Issue: Özel Sayı-1 |
