Research Article
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The Effect of Rye Translocation on Grain Yield and Agronomic Properties in the Recombinant Inbred Line Population Developed in Bread Wheat

Year 2022, Volume: 39 Issue: 2, 97 - 104, 31.08.2022
https://doi.org/10.55507/gopzfd.1119650

Abstract

Tolerance to biotic and abiotic stress factors is an important issue in wheat breeding studies. Rye translocation is an important genetic resource used in wheat breeding for tolerance to stress conditions and grain yield. In this study, the rye translocation and Glu-B3b allele, which is one of the Low Molecular Weight Gluten Subunits (LMW-GS), were identified by Polymerase Chain Reaction (PCR) method in the population of 145 recombinant inbreed lines (RILs) developed by crossing Tahirova-2000 and Tosunbey cultivars. It was determined that 85 out of 145 RILs carried the Glu-B3b allele. Statistical differences were analysed between the lines containing rye translocation or not in terms of the grain yield, thousand kernel weight and heading time. Physiologically, it was observed that the 1BL.1RS rye translocation affects the heading time. An increase in root biomass was observed in genotypes carrying the rye translocation. It was determined that the thousand kernel weights of the lines were negatively affected by the rye translocation. These results indicated that the lines in the population can be used as gene resources for wheat breeding program and agronomic researches.

Supporting Institution

Karamanoğlu Mehmetbey University BAP Coordinatorship , TÜBİTAK

Project Number

12-YL-15 , 112O135

Thanks

This research was carried out within the scope of project number 12-YL-15 supported by Karamanoğlu Mehmetbey University BAP Coordinatorship and yield trials were established within the scope of project numbered 112O135 supported by TÜBİTAK.

References

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  • Andrews, J. L., Blundell, M. J., & Skerritt, J. H. (1996). Differentiation of wheat-rye translocation lines antibody probes for Gli-B1 and Sec-1. Cereal Science, 23, 61-72.
  • Assanga, S. O., Fuentealba, M., & Zhang, G. R. (2017). Mapping of quantitative trait loci for grain yield and ıts components in popular winter wheat. Wheat Crop Science, 16, 111-120.
  • Graybosch, R. A. (2001). Uneasy unions: quality effects of rye chromatin transfers to wheat. Journal of Cereal Science, 33(1), 3-16.
  • Graybosch, R. A., Peterson, C. J., Hansen, L. E., & Mattern, P. J. (1990). Relationships between protein solubility characteristics, 1BL/1RS, high molecular weight glutenin composition, and end-use quality in winter wheat germ plasm. Cereal Chemistry, 67(4), 342-349.
  • Hsam, S. L. K., Mohler, V., Hartly, L., Wenzel, G., & Zeller, F.J. (2000). Mapping of powdery mildew ve leaf rust resistance wheat-rye translocated chromosome t1bl.1rs using molecular ve biochemical markers. Plant Breeding, 119, 87-89.
  • Hu, J., Wang, X., Zhang, G., Jiang, P., Chen, W., Hao, Y., Ma, X., Xu, S., Jia, J., & Kong, L. (2020). QTL mapping for yield related traits in wheat based on four RIL populations. Theoretical and Applied Genetics, 133, 917-933.
  • Kim, W., Johnson, J. W., Baenziger, P. S., Lukaszewski, A. J., & Gaines, C. S. (2004). Agronomic effect of wheat-rye translocation carrying rye chromatin (1R) from different sources. Crop Science, 44(4), 1254-1258.
  • Koebner, R. M., & Shepherd, K. W. (1986). Controlled introgression to wheat of genes from rye chromosome arm 1RS byinduction of allosyndesis. Theoretical and Applied Genetics, 73, 197-208.
  • Korkut, K. Z., Sağlam, N., & Başer, İ. (1993). Ekmeklik ve makarnalık buğdaylarda verimi etkileyen bazı özellikler üzerine araştırmalar. Trakya Üniversitesi Tekirdağ Ziraat Fakültesi Dergisi, 2(2), 111-118.
  • Landjeva, S., Korzun, V., Tsanev, V., Vladova, R., & Ganeva, G. (2006). Distribution of the wheat-rye translocation 1rs.1bl among bread wheat varieties of Bulgaria. Plant Breeding, 125, 102-104.
  • Lee, J. H., Graybosch, R. A., & Peterson, C. J. (1995). Quality and biochemical of a wheat-rye translocation in wheat. Theoretical and Applied Genetics, 90(1), 105-112.
  • Lelleya, T., Edera, C., & Grausgruberb, H. (2004). Influence of 1BL.1RS wheat-rye chromosome translocation on genotype by environment interaction. Journal of Cereal Science, 39(3), 313-320.
  • Leonardo, A., Crespo, H., Gustavsson, L. G., Åhman, I., & Hereditas, A., 2017. systematic review of rye (Secale cereale L.) as a source of resistance to pathogens ve pests in wheat (Triticum aestivum L.) Crop Science, 154,14.
  • Liu, R. H. (2007). Whole grain phytochemicals and health. Journal of Cereal Science, 46(3), 207-219.
  • McKendry, A. L., Tague, D. N., & Miskin, K. E. (1996). Effect of 1BL.1RS on agronomic performance of soft red winter wheat. Crop Science, 36, 844-847.
  • Patterson, H. D., & Hunter, E. A. (1983). The efficiency of incomplete block designs in national list and recommended list cereal variety trials. The Journal of Agricultural Science, 101(02), 427-433.
  • Peterson, C. J., Graybosch, R. A., Baenziger, P. S., & Grombacher, A. W. (1992). Genotype and environment on quality characteristics of winter wheat. Crop Science, 32, 98-103.
  • Rayburn, A. L., & Carver, B. F. (1988). Cytological identification of 1B/1R wheat-rye translocations in winter wheat breeding lines. Euphytica, 38, 237-240.
  • Reynolds, M. P., Nagarajan, S., Razzaque, M. A., & Ageeb, O. A. A. (2001). Heat tolerance application of physioloji in wheat breeding. International Maize and Wheat Center, CIMMYT, 10, 124-135.
  • Schlegel, R., & Meinel, A. A. (1994). Quantitative trait locus (QTL) on chromosome arm 1RS of rye and its effects on yield performance of hexaploid wheat. Cereal Research Communications, 22(1), 7-13.
  • Shcherban, A. B., Börner, A., & Salina, E. A. (2015). Effect of VRN‐1 and PPD‐D1 genes on heading time in bread wheat cultivars. Plant Breeding, 134(1), 49-55.
  • Singh, N. K., & Shepherd, W. (1988). Linkage mapping of genes controlling endosperm storage proteins in wheat. Theoretical and Applied Genetics, 75(4), 628-64.
  • Tavella, C. M. (1978). Date of Heading and plant height of wheat varieties, as related to septoria leaf blotch damage. Euphytica, 27(2), 577-580.
  • Torres, A., & Pietragalla, J. (2012). Crop morphological traits. Physiological breeding II: a field guide to wheat phenotyping. CIMMYT, p. 106-112.
  • Tunca, Z. Ş., Topal, A., & Karaduman, Y. (2018). Buğdaya çavdar kromozom parçacıklarının aktarılması. Journal of Bahri Crop Research, 7(2), 55-65.
  • TUIK. www.tuik.gov.tr.2020. (Erişim Tarihi: 15.03.2021).
  • Wang, L., Li, G., Peña, R. J., Xia, X., & He, Z. (2010). Development of STS markers and establishment of multiplex PCR for Glu-A3 alleles in common wheat (Triticum aestivum L.). Journal of Cereal Science, 51(3), 305-312.
  • Wieser, H. (2007). Chemistry of gluten proteins. Food Microbiology, 24(2), 115-119.
  • Xue, Q., Rudd, J. C., Liu, S., Jessup, K. E., Devkota, R. N., & Mahano, J. R. (2014). Yield determination and water-use efficiency of wheat under water-limited conditions in the us southern high plains. Crop Science, 54(1), 34-47.
  • Yamamoto, M., & Mukai, Y. (2005). High-resolution physical mapping of the secalin-1 locus of rye on extended DNA fibers. Cytogenetics Genome Researchs, 109, 79-82.
  • Yang, E., Li, G., Li, L., Zhang, Z., Yang, W., & Peng, Y. (2016). Characterisation of stripe rust resistance genes in the wheat cultivar Chuanmai45. International Journal Molecular Science, 17, 601.
  • Zeller, F. J., & Fuchs, E. (1983). Cytologie und Krank heitsresistenz einer 1A/1R-und mehrerer 1B/1R-Weizen-Roggen Translokations sorten. Z pflanzenz, 90, 285-296.
Year 2022, Volume: 39 Issue: 2, 97 - 104, 31.08.2022
https://doi.org/10.55507/gopzfd.1119650

Abstract

Project Number

12-YL-15 , 112O135

References

  • Agache, S., Bacgelier, B., Buyser, J., Henry, Y., & Snape, J. W. (1989). Genetic analysis of anther culture response in wheat using aneuploid, chromosome substitution and translocation lines. Theoretical and Applied Genetics, 77, 7-11.
  • Andrews, J. L., Blundell, M. J., & Skerritt, J. H. (1996). Differentiation of wheat-rye translocation lines antibody probes for Gli-B1 and Sec-1. Cereal Science, 23, 61-72.
  • Assanga, S. O., Fuentealba, M., & Zhang, G. R. (2017). Mapping of quantitative trait loci for grain yield and ıts components in popular winter wheat. Wheat Crop Science, 16, 111-120.
  • Graybosch, R. A. (2001). Uneasy unions: quality effects of rye chromatin transfers to wheat. Journal of Cereal Science, 33(1), 3-16.
  • Graybosch, R. A., Peterson, C. J., Hansen, L. E., & Mattern, P. J. (1990). Relationships between protein solubility characteristics, 1BL/1RS, high molecular weight glutenin composition, and end-use quality in winter wheat germ plasm. Cereal Chemistry, 67(4), 342-349.
  • Hsam, S. L. K., Mohler, V., Hartly, L., Wenzel, G., & Zeller, F.J. (2000). Mapping of powdery mildew ve leaf rust resistance wheat-rye translocated chromosome t1bl.1rs using molecular ve biochemical markers. Plant Breeding, 119, 87-89.
  • Hu, J., Wang, X., Zhang, G., Jiang, P., Chen, W., Hao, Y., Ma, X., Xu, S., Jia, J., & Kong, L. (2020). QTL mapping for yield related traits in wheat based on four RIL populations. Theoretical and Applied Genetics, 133, 917-933.
  • Kim, W., Johnson, J. W., Baenziger, P. S., Lukaszewski, A. J., & Gaines, C. S. (2004). Agronomic effect of wheat-rye translocation carrying rye chromatin (1R) from different sources. Crop Science, 44(4), 1254-1258.
  • Koebner, R. M., & Shepherd, K. W. (1986). Controlled introgression to wheat of genes from rye chromosome arm 1RS byinduction of allosyndesis. Theoretical and Applied Genetics, 73, 197-208.
  • Korkut, K. Z., Sağlam, N., & Başer, İ. (1993). Ekmeklik ve makarnalık buğdaylarda verimi etkileyen bazı özellikler üzerine araştırmalar. Trakya Üniversitesi Tekirdağ Ziraat Fakültesi Dergisi, 2(2), 111-118.
  • Landjeva, S., Korzun, V., Tsanev, V., Vladova, R., & Ganeva, G. (2006). Distribution of the wheat-rye translocation 1rs.1bl among bread wheat varieties of Bulgaria. Plant Breeding, 125, 102-104.
  • Lee, J. H., Graybosch, R. A., & Peterson, C. J. (1995). Quality and biochemical of a wheat-rye translocation in wheat. Theoretical and Applied Genetics, 90(1), 105-112.
  • Lelleya, T., Edera, C., & Grausgruberb, H. (2004). Influence of 1BL.1RS wheat-rye chromosome translocation on genotype by environment interaction. Journal of Cereal Science, 39(3), 313-320.
  • Leonardo, A., Crespo, H., Gustavsson, L. G., Åhman, I., & Hereditas, A., 2017. systematic review of rye (Secale cereale L.) as a source of resistance to pathogens ve pests in wheat (Triticum aestivum L.) Crop Science, 154,14.
  • Liu, R. H. (2007). Whole grain phytochemicals and health. Journal of Cereal Science, 46(3), 207-219.
  • McKendry, A. L., Tague, D. N., & Miskin, K. E. (1996). Effect of 1BL.1RS on agronomic performance of soft red winter wheat. Crop Science, 36, 844-847.
  • Patterson, H. D., & Hunter, E. A. (1983). The efficiency of incomplete block designs in national list and recommended list cereal variety trials. The Journal of Agricultural Science, 101(02), 427-433.
  • Peterson, C. J., Graybosch, R. A., Baenziger, P. S., & Grombacher, A. W. (1992). Genotype and environment on quality characteristics of winter wheat. Crop Science, 32, 98-103.
  • Rayburn, A. L., & Carver, B. F. (1988). Cytological identification of 1B/1R wheat-rye translocations in winter wheat breeding lines. Euphytica, 38, 237-240.
  • Reynolds, M. P., Nagarajan, S., Razzaque, M. A., & Ageeb, O. A. A. (2001). Heat tolerance application of physioloji in wheat breeding. International Maize and Wheat Center, CIMMYT, 10, 124-135.
  • Schlegel, R., & Meinel, A. A. (1994). Quantitative trait locus (QTL) on chromosome arm 1RS of rye and its effects on yield performance of hexaploid wheat. Cereal Research Communications, 22(1), 7-13.
  • Shcherban, A. B., Börner, A., & Salina, E. A. (2015). Effect of VRN‐1 and PPD‐D1 genes on heading time in bread wheat cultivars. Plant Breeding, 134(1), 49-55.
  • Singh, N. K., & Shepherd, W. (1988). Linkage mapping of genes controlling endosperm storage proteins in wheat. Theoretical and Applied Genetics, 75(4), 628-64.
  • Tavella, C. M. (1978). Date of Heading and plant height of wheat varieties, as related to septoria leaf blotch damage. Euphytica, 27(2), 577-580.
  • Torres, A., & Pietragalla, J. (2012). Crop morphological traits. Physiological breeding II: a field guide to wheat phenotyping. CIMMYT, p. 106-112.
  • Tunca, Z. Ş., Topal, A., & Karaduman, Y. (2018). Buğdaya çavdar kromozom parçacıklarının aktarılması. Journal of Bahri Crop Research, 7(2), 55-65.
  • TUIK. www.tuik.gov.tr.2020. (Erişim Tarihi: 15.03.2021).
  • Wang, L., Li, G., Peña, R. J., Xia, X., & He, Z. (2010). Development of STS markers and establishment of multiplex PCR for Glu-A3 alleles in common wheat (Triticum aestivum L.). Journal of Cereal Science, 51(3), 305-312.
  • Wieser, H. (2007). Chemistry of gluten proteins. Food Microbiology, 24(2), 115-119.
  • Xue, Q., Rudd, J. C., Liu, S., Jessup, K. E., Devkota, R. N., & Mahano, J. R. (2014). Yield determination and water-use efficiency of wheat under water-limited conditions in the us southern high plains. Crop Science, 54(1), 34-47.
  • Yamamoto, M., & Mukai, Y. (2005). High-resolution physical mapping of the secalin-1 locus of rye on extended DNA fibers. Cytogenetics Genome Researchs, 109, 79-82.
  • Yang, E., Li, G., Li, L., Zhang, Z., Yang, W., & Peng, Y. (2016). Characterisation of stripe rust resistance genes in the wheat cultivar Chuanmai45. International Journal Molecular Science, 17, 601.
  • Zeller, F. J., & Fuchs, E. (1983). Cytologie und Krank heitsresistenz einer 1A/1R-und mehrerer 1B/1R-Weizen-Roggen Translokations sorten. Z pflanzenz, 90, 285-296.
There are 33 citations in total.

Details

Primary Language English
Subjects Botany, Agricultural Engineering, Agronomy
Journal Section Research Articles
Authors

Mesut Ersin Sönmez 0000-0002-0966-9216

Tuğba Güleç 0000-0002-1755-1082

Erdinc Savaslı 0000-0001-5326-4710

Oğuz Önder 0000-0002-8184-1316

Nevzat Aydın 0000-0003-3251-6880

Project Number 12-YL-15 , 112O135
Publication Date August 31, 2022
Published in Issue Year 2022 Volume: 39 Issue: 2

Cite

APA Sönmez, M. E., Güleç, T., Savaslı, E., Önder, O., et al. (2022). The Effect of Rye Translocation on Grain Yield and Agronomic Properties in the Recombinant Inbred Line Population Developed in Bread Wheat. Journal of Agricultural Faculty of Gaziosmanpaşa University (JAFAG), 39(2), 97-104. https://doi.org/10.55507/gopzfd.1119650