REFERENCES
- Armstead I.P., Donnison I.S., Aubry S., Harper J., et al.. (2006) New Phytologist, 172, 592–597.
- Armstead I.P., Harper J.A., Turner L.B., Sket L., et al.. (2006) Plant Pathol., 55, 62–67.
- Armstead I., Donnison I., Aubry S., Harper J., et al.. (2007) Science, 315, 73.
- Blumler M.A. (1998) In: The Origins of Agriculture and Crop Domestication, ICARDA, Aleppo, Syria (A.B. Damania, J. Valkoun, G. Willcox, C.O. Qualset, Eds.), ICARDA, IPGRI, FAO and UC/GRCP, 252–268.
- Bozhanova V., Dechev D. (2002) Cereal Res. Commun., 30, 277–284.
- Bozhanova V., Dechev D., Deneva M., Ivanov P. (2004) Plant Science (Bg), 41, 489–494.
- Bozhanova V., Dechev D., Ivanov P., Deneva M. (2007) In: Proceedings of Scientific Conference with International Participation, 5–6 June 2007, Stara Zagora, Bulgaria (St. Dimov, D. Pavlov, St. Eneva, M. Videva, Eds.), 1, 230–234.
- Bozhanova V., Dechev D., Hadzhiivanova B., Valkova N. (2008) In: Proceedings of International Durum Wheat Symposium, Book of Abstracts, 30 June–3 July, Bologna, Italy, P 4.24,161.
- Crespel L., Pernet A., Bris M.L., Gudin S., Oyant L.H.S. (2009) Plant Breed., 128, 501–506.
- Dechev D. (1996) In: Proceedings of the 5th International Wheat Conference Abstracts, Book of Abstracts, June 10–14, Ankara, 19.
- Dechev V., Panayotova G. (2010) Plant Sci., 47, 23–28.
- Deschamps S., Campbell M.A. (2010) Mol. Breeding, 25, 553–570.
- Dhaliwal H.S., Garg M., Singh H., Chuneja P., Kaur H. (2002) Cereal Res. Commun., 30, 173–178.
- Ehdaie B., Whitkus R.W., Waines J. G. (2003) Crop Sci., 43, 710–717.
- Eshed Y., Zamir D. (1995) Genetics, 141, 1147–1162.
- Feldman M., Levy A.A. (2005) Cytogenet. Genome Res., 109, 250–258.
- Figliuolo G., Mazzeo M., Greco I. (2007) Genet. Resour. Crop Ev., 54, 615–626.
- Filev K. (1990) In: Proceedings of IAEA Conference, International Symposium on the Contribution of Plant Mutation Breeding to Crop Improvement (Iaea EDITORIAL staff, Eds.), 18–22 June, Vienna, Austria, IAEA 1, 295–299.
- Friebe B.R., Tuleen N.A., Gillet B.S. (1999) Genome, 42, 374–380.
- Fulton T.M., Beck-Bunn T., Emmatty D., Eshed Y., et al.. (1997) Theor. Appl. Genet., 95, 881–894.
- Gadaleta A., Signorile A., Simeone R., Zaccheo S., Blanco A. (2003) In: Proceedings of the International Congress “In the Wake of the Double Helix: From the Green Revolution to the Gene Revolution”, 27–31 May, Bologna (R. Tuberosa, R.L. Phillips, M. Gale, Eds.), 2005 Avenue Media, Bologna, Italy, 133–141.
- Ganeva G., Korzun V., Landjeva S., Popova Z., Christov N. K. (2010) Genet. Resour. Crop Ev., 57, 273–285.
- Gupta P.K. Varshney R.K. (2000) Euphytica, 113, 163–185.
- Gupta P.K., Balyan H.S., Edwards K.J., Isaac P., et al.. (2002) Theor. Appl. Genet., 105, 413–422.
- Gupta P.K., Kulwal P.L., Rustgi S. (2005) Cytogenet. Genome Res., 109, 315–327.
- Guyomare'h H., Sourdille P., Charmet G., Edwards K.J., Bernard M. (2002) Theor. Appl. Genet., 104, 1164–1172.
- Guyomare'h H., Sourdille P., Edwards K.J., Bernard M. (2002) Theor. Appl. Genet., 105, 736–744.
- Hadzhiivanova B., Bozhanova V., Dechev D. (2012) Bulg. J. Agric. Sci., 18, 713–721.
- Hodgkin T., Hajjar R. (2008) In: Crop Wild Relative Conservation and Use (N. Maxted, B.V. Ford-Lloyd, S.P. Kell, et al. Eds), CAB International, Wallingford, UK, 535–548.
- Hohmann U., Badaeva K., Busch W., Friebe B., Gill B.S. (1996) Genome, 39, 336–347.
- Ivanov I.V. (1927) Der Hartweizen Bulgariens T. Durum Desf. Jahrbuch der Universitat Sofia, Landwirtschaftliche Fakultat, Band V, 1926–1927, p. 147.
- Jakupciak J.P., Wells R.D. (2000) J. Biol. Chem., 275, 4003–4013.
- Jauhar P.P., Peterson T.S., Xu S.S. (2009) Genome, 52, 467–483.
- Jenkins G., Head J., Foster J.W. (2000) Chromosoma, 109, 280–286.
- Joppa L.R., Cantrell R. (1990) Crop Sci., 30(5), 1059–1064.
- Joppa L.R., Hareland G.A., Cantrell R.G. (1991) Crop Sci., 31, 1513–1517.
- King I.P., Forster B.P., Law C.C., Kant K.A., et al.. (1997) New Phytol., 137, 75–81.
- King J., Gay A., Sylvester-Bradley R., Bingham I., et al.. (2003) Ann. Bot., 91, 383–390.
- Kovacs M.I.P., Howes N.K., Clarke J.M., Leisle D. (1998) J. Cereal Sci., 27, 47–51.
- Kuleung C., Baenziger P.S., Dweikat I. (2004) Theor. Appl. Genet., 108, 1147–1150.
- Levy A.A., Feldman M. (2004) Biol. J. Linn. Soc., 82, 607–613.
- Li Y.C., Fahima T., Korol A.B., Peng J.H., et al.. (2000) Mol. Biol. Evol., 17, 851–862.
- Li Y.C., Fahima T., Peng J.H., Röder M.S., et al.. (2000) Theor. Appl. Genet., 101, 1029–1038.
- Li Y.C., Korol A.B., Fahima T., Beiles A., Nevo E. (2002) Mol. Ecol., 11, 2453–2465.
- Liu B., Wendel J.F. (2002) Curr. Genomics, 3, 489–506.
- Lu Y., Yan J., Guimarães C.T., Taba S., et al.. (2009) Theor. Appl. Genet., 120(1), 93–115.
- Ma X.F., Gustafson J.P. (2005) Cytogenet Genome Res., 109, 236–249.
- Maccaferri M., Sanguineti M.C., Donini P., Tuberosa R. (2003) Theor. Appl. Genet., 107, 783–797.
- Maccaferri M., Sanguineti M.C., Xie C., Smith J.S., Tuberosa R. (2007) Genome, 50, 385–399.
- Maccaferri M., Mantovani P., Tuberosa R., Deambrogio E., et al.. (2008) Theor. Appl. Genet., 117, 1225–1240.
- Maccaferri M., Sanguineti M.C., Corneti S., Ortega J.L.A., et al.. (2008) Genetics, 178, 489–511.
- Macritchie D., Sun G. (2004) Theor. Appl. Genet., 108, 720–724.
- Malkov K. (1906) Works of the State Agricultural Experimental Station in Sadovo, Cooperative Ed., Plovdiv, No. 1.
- Martín L.M, Alvarez J.B. (2000) Options Mediterraneennes, Serie A: Seminares Mediterraneennes, 40, 447–454.
- Mcintosh R.A., Hart G.E., Gale M.D. (1991) Wheat Information Service, 73, 40–57.
- Mcintosh R.A., Hart G.E., Devos K.M., Rogers J., Gale M.D. (1998) Wheat Information Service, 86, 54–91.
- Molnar I., Kubalakova M., Simkova H., Cseh A., et al.. (2011) PLoS ONE, 6(11),e27708.
- Monneveux P., Zacharieva M., Rekika D. (2000) Options Mediterraneennes, Serie A: Seminares Mediterraneennes, 40, 71–81.
- Motsnyi H., Fayt V.I., Blagodarova E.M. (2009) Cytol. Genet., 43, 169–176.
- Mujeeb-Kazi A., Rajaram (2002) In: Bread Wheat—Improvement and Production (B.C. Curtis, S. Rajaram, H. Gómez Macpherson, Eds.), FAO Plant Production and Protection Series, 30, 199–215.
- Murray M.G., Thompson W.F. (1980) Nucleic Acids Res., 8, 4321–4325.
- Nagaoka T., Ogihara Y. (1997) Theor. Appl. Genet., 94, 597–602.
- Nevo E., Chen G. (2010) Plant Cell Environ., 33, 670–685.
- Pestsova E., Ganal M.W., Röder M.S. (2000) Genome, 43, 689–697.
- Popova Z. (2005) In: Balkan Scientific Conference, Breed and Cultural Pract. of the Crops (N. Merchinkov, Ed.), 2 June, Karnobat, 252–254.
- Prakash D.H., Narayanaswamy P., Sondur S.N. (2002) J. Hortic. Sci. Biotech., 77, 287–293.
- Prasad M., Varshney R.K., Roy J.K., Balyan H.S., Gupta P.K. (2000) Theor. Appl. Genet., 100, 584–592.
- Richard G.F., Paques F. (2000) EMBO Reports, 11, 122–126.
- Röder M.S., Korzun V., Wendehake K., Plaschke J., et al.. (1998) Genetics, 149, 2007–2023.
- Sandve S.R., Rudi H., Asp T., Rognli O.A. (2008) BMC Evol. Biol., 8, 245.
- Schneider A., Molnár I., Molnár-Láng M. (2010) Euphytica, 175, 357–364.
- Sharma S., Balyan H.S., Kulwal P.L., Kumar N., et al.. (2002) Wheat Information Service, 95, 23–28.
- Shen X., Kong L., Ohm H. (2004) Theor. Appl. Genet., 108, 808–813.
- Somers D.J., Isaac P., Edwards K. (2004) Theor. Appl. Genet., 109, 1105–1114.
- Sourdille P., Tavaud M., Charmet G., Bernard M. (2001) Theor. Appl. Genet., 103, 346–352.
- Statsoft (2004) STATISTICA Data Analysis Software, Version 7, Tulsa, OK, Statsoft Inc. <www.statsoft.com>
- Talame V., Sanguineti M.C., Chiapparino E., Bahri H., et al.. (2004) Ann. Appl. Biol., 144, 309–319.
- Tanksley S.D., Nelson J.C. (1996) Theor. Appl. Genet., 92, 191–203.
- Tiwari VK., Rawat N., Singh N., Randhawa G.S., et al.. (2008) In: Proceedings of the 11th International Wheat Genetics Symposium, 24–29 Aug., Brisbane, Qld., Australia (R. Appels, et al.. Eds.), Sydney University Press, Sydney, 305–309.
- Todorovska E., Zheleva D., Christov N., Jacquemin J., et al.. (2007) In: Proceedings of the 1st Workshop on Tritigen COST Action FA0604: Triticeae Genomics for the Advancement of Essential European Crops, 1–2 Oct., Puerto de la Crus, Tenerife, Canary Islands, Spain, Book of Abstracts, P1.1, 39.
- Tsvetkov S. (1992) Wheat Information Service, 75, 31–35.
- Uhr Z.l.., Bozhanova V., Hadzhivanova B. (2007) In: Proceedings of International Scientific Conference “Plant Genetic Stoks—The Basis of Today's Agriculture, 13–14 June, IRGR, Sadovo, Bulgaria, 139–142.
- Varshney R.K., Nayak S.N., May G.D., Jackson S.A. (2009) Trends Biotechnol., 27, 522–530.
- Vos P., Hogers R., Bleeker M., Reijans M., et al.. (1995) Nucleic Acids Res., 23, 4407–4414.
- Wang J., Singh R.P., Braun H.J., Pfeiffer W.H. (2009) Theor. Appl. Genet., 118, 683–94.
- Wang W., Vinocur B., Altman A. (2003) Planta, 218, 1–14.
- Wehrhahn C., Allard R.W. (1965) Genetics, 51, 109–119.
- Williams J.G.K., Kubelik A.R., Livak K.J., Rafalski J.A., Tingey S.V. (1990) Nucleic Acids Res., 18, 6531–6535.
- Xu Y. (2010) In: Molecular Plant Breeding, CABI eds, Wallingford, UK; Cambridge, MA., 1–734, ISBN: 978 1 84593 392 0.
- Yanev A. (2006) Plant Mutant Reports, 1, 23–24.
- Yang Y.-M., Zhang Q.-Y., Li J., Wei H.-T., et al.. (2012) Afr. J. Biotechnol., 11, 12167–12172.
- Yildirim A., Kandemir N., Ates Sönmezoğlu Ö., Eserkaya Güleç T. (2009) Biotechnol. Biotech. Eq., 23, 1299–1302.
- Zhan L.Y., Bernard M., Leroy P., Feuillet C., Sourdille P. (2005) Theor. Appl. Genet., 111, 677–687.
- Zhang L.Q., Liu D.C., Yan Z.H., Lan X.J., et al.. (2004) Sci. China Ser. C., 47, 553–561.
- Zhang L., Sun G., Yan Z., Chen Q., et al.. (2007) J. Genet. Genomics, 34(10), 939–946.
- Zhang P.Z., Dreisigacker S., Melchinger A.E., Reif J.C., et al.. (2005) Mol. Breeding, 15, 1–10.
- Zhao C., Cui F., Wang X., Shan S., Li X., Bao Y., Wang H. (2012) Field Crop. Res., 127, 79–84.
- Zhu Y., Hu J., Han R., Wang Y., Zhu S. (2011) Australian Journal of Crop Science, 5, 846–850.
- Zietkiewicz E., Rafalski A., Labuda D. (1994) Genomics, 20, 176–183.