1. Aalami, A., Safiyar, S. and Abdollahi Mandoulakani, B. (2012). R-RAP: a retrotransposon-based DNA fingerprinting technique in plants. Plant Omics Journal, 5(4): 359-364. 2. Afridi, KH., Ahmad, G., Ishaq, M., Khalil, I.A., Ahmad Shah, I., Saeed, M. and Ahmad, N. (2014). Genetic potential and variability for mopho-yield traits in durum wheat. International Journal of Farming and Allied Sciences, 3: 1206-1212. 3. Ahmadi Ochtapeh, H., Soltanloo, H., Ramezanpour, S.S., Naghavi, M.R., KalateArabi, M., Nikkhah, H.R. and Yoosefi Rad, S. (2016). Localization of QTLs conferring lodging resistance in barley recombinant inbred lines. Modern genetics, 11(2): 237-244 (In Persian). 4. Baghizadeh, A., Taleei, A.R. and Naghavi, M.R. (2007). QTL Analysis for some agronomic traits in barley (Hordeum vulgare L.). Inter National Journal of Agriculture and Biology, 9(2): 372-374. 5. Breseghello, F. and Sorrells, M.E. (2006). Association mapping of kernel size and milling quality in wheat (Triticum aestivum L.) cultivars. Genetics, 172: 1165-1177. 6. Eshghi, R., Salayeva, S., Ebrahimpour, F., Rahimi, M., Baraty, M. and Ojaghi, J. (2013). Advanced-backcross QTL analysis in hulless barley: I. Detection of exotic alleles for yield and yield components introgressed from Hordeum vulgare ssp. Spontaneum. International Journal of Agriculture and Crop Sciences, 5(2): 95-100. 7. Feug, Z.Y., Liu, X.J., Zhang, Y.Z. and Ling, H.Q. (2006). Genetic diversity analysis of Tibetan wild barley using SSR markers. Acta Genetica Sinica, 33: 917-928. 8. Germán, S., Arbelbide, M., Abadie, T., Romero, R. and Peculio, A. (2000). Characterization of photoperiod response of barley genotypes from diverse origin. In: S. Logue (ed.), Barley Genetics VIII, 212-214, Vol. III – Contributed Papers. Department of Plant Science, Adelaide University, Glen Osmond, Adelaide, AUS. 9. Gheitaran-Poorsahrigh, S., Mohammadi, A.A., and Sadeghzadeh, B. (2014). Identification of Genomic Oregions Controlling Iron Concentration and Content in Shoot of Barley in A × B Doubled Hoploid Mapping Population. Journal of Plant Genetic Research. 1(1): 1-12 (In Persian). 10. Kato, K., Miura, H. and Sawada, S. (2000). Mapping QTLs controlling grain yield and itcomponents on chromosome 5A of wheat. Theoretical and Applied Genetics, 101: 1114-1121. 11. Kjaer, B. and Jensen, J. (1996). Quantitative trait loci for grain yield and yield components in a cross between a six – rowed and two-rowed barley. Euphytica, 90: 39-48. 12. Khodaei, S., Mohammadi, A.A. and Sadeghzadeh, B. (2014). QTL Mapping of Phosphorus Concentration and Content on Shoot of Barley. Journal of Plant Genetic Research. 1(1):15-24 (In Persian). 13. Kosambi, D.D. (1994). The estimation of map distance from recombination values. Annals of Eugenics, 12: 172-175. 14. Li, Ch., Bai, G., Choo, Sh. Carrer, B. and Wang, Zh. (2016). Single nucleotide polymorphisms linked to quantitative trait loci for grain quality traits in wheat. The Crop Journal, 4: 1-11. 15. Li, Q., Zhang, Y., Liu, T., Wang, F., Liu, K., Chen, J. and Tian, J. (2015). Genetic analysis of kernel weight and kernel size in wheat (Triticum aestivum L.) using unconditional and conditional QTL mapping. Molecular Breeding, 35:194-219. 16. Liu, B.H. (1998). Statistical Genomics; Linkage, mapping and QTL analysis. CRC Press, LLC, USA. 17. Manly, K.F. and Olson, J.M. (1999). Overview of QTL mapping software and introduction to map manager QTL. Mammalian Genome, 10: 327-334. 18. Marza, F., Bai, G.H., Carver, B.F. and Zhou. W.C. (2006). Quantitative trait loci for yield and related traits in the wheat population Ning7840 × Clark. Theoretical and Applied Genetics, 112: 688-698. 19. Mehravaran, L., Fakheri, B.A. and Sharifi-Rad, J. (2014). Localization of quantitative trait loci (QTLs) controlling drought tolerance in barley. International Journal of Biosciences, 5(7): 248-259. 20. Mohammadi, M. and Baom, M. (2008). QTL analysis for morphological traits in the population ofdouble haploide barley. Journal of Science and Technology of Agriculture and Natural Resources, 45(1): 111-120 (In Persian). 21. Naghavi, M., Gharayazi, B. and Hosseini, Gh. (2005). Molecular Markers. Tehran University Press, Tehran, Iran. 22. Narjesi, V., Mardi, M., Majidi Hervan, E. Azadi, A., Naghavi, M. R., Ebrahimi, M. and ZaliA.A. (2015). Analysis of Quantitative Trait Loci (QTL) for grain yield and agronomic traits in wheat (Triticum aestivum L.) under normal and salt-stress conditions. Plant Molecular Biology Reporter, 33: 2030-2040. 23. Nelson, J. C. (1997). QGENE: software for marker-based genomic analysis and breeding. Molecular Breeding, 3(3): 239-245. 24. Peighambari, S.A., Yazdi Samadi, B., Nabipour, A., Charmet, G. and Sarrafi, A. (2005). QTL analysis for agronomic traits in barley doubled haploids population grown in Iran. Plant Science, 169: 1008-1013. 25. Queen, R.A., Gribbon, B.M., James, C., Jack, P. and Falvell, A.J. (2004). Retrotransposon-based molecular marker for linkage and genetic diversity analysis in wheat. Molecular Genetics and Genomics, 271: 91-97. 26. Rabiei, B. (2003). QTL Analysis for traits controlling seed in Iranian rice varieties. Ph.D thesis, Agriculture College, University of Tabriz, Tabriz, Iran. (In Persian). 27. Rafalski, J.A., Vogel, J.M., Morgante, M., Powell, W., Andre, C. and Tingey, S.V. (1996). Generating and using DNA markers in plants. PP. 75-134. In: B. Birren, E. Lai. (Eds.), nmammalian Genome Analysis. A Practical Guide. Academic Press, San Diego, CA, USA. 28. Ramya, P., Chaubal, A., Kulkarni, K., Gipta, L., Kadoo, N., Dhaliwal, H.S., Chhuneja, P., Lagu, M. and Gupta, V. (2010). QTL mapping of 1000-kernel weight, kernel length, and kernel width in bread wheat (Triticum aestivum L.). Journal of Applied Genetics, 51: 421-429. 29. Ren, X., Sun, D., Sun, G., Li, Ch. and Dong, W. (2013). Molecular detection of QTL for agronomic and quality traits in a doubled haploid barley population. Australian Journal of Crop Science. 7(6): 878-886. 30. Saghi Maroof, M.A., Biyashev, R.M., Yang, G.P., Zhang, Q. and Allard, R.W. (1994). Extraordinarily polymorphic microsatellites DNA in barely species diversity, chromosomallocation, and population dynamics. Proceeding of National Academy Science USA, 91: 5466-5570. 31. Shahinnia, F., Rezaei, A.M., Seyedtabatbai, B.A. and Muhammadi, S.A. (2014). Localization of genes controlling quantitative traits (QTL) yield and yield components in barley lines. Seed and Plant Improvement Journal, 1: 85-101 (In Persian). 32. Slafer, G.A., Molina Cano, J.L., Savin, R., Araus, J.L. and Romagosa, I. (2002). Barley Science: Recent advances from molecular biology to agronomy of yield and quality. Haworth Press, New York, USA. 33. Sun, X., Marza, F., Ma, H., Carver, B.F. and Bai, G. (2010). Mapping quantitative trait loci for quality factors in an inter-class cross of US and Chinese wheat. Theoretical and applied genetics 120: 1041-1051. 34. Tian, R., Jiang, G.H., Shen, L.H., Wang, L.Q. and He, Y.Q. (2005). Mapping quantitative trait loci underlying the cooking and eating quality of rice using a DH population. Molecular Breeding, 15: 117-124. 35. Wang, J., Sun, G., Ren, X., Li, Ch., Liu, L., Wang, Q., Du, B. and Sun, D. (2016). QTL underlying some agronomic traits in barley detected by SNP markers. BMC Genetics. 17: 103-116. 36. Xue, D.W., Zhou, M. X., Zhang, X Q., Chen, S., Wei, K., Zeng, F.R., Mao, Y., Wu, F.B. and Zhang, G.P. (2010). Identification of QTLs for yield and yield components of barley under different growth conditions. Journal of Zhejiang University-SCIENCE B (Biomedicine and Biotechnology), 11(3): 169-176.
|