Literatura: |
Literatura obowiązkowa
Maluszynski, M., Szarejko I., Bhatia C.R., Nichterlein K., Lagoda P.J.L. 2009. Methodologies for generating variability. Part 4: Mutation techniques. In: Plant Breeding and Farmer Participation. Ceccarelli S., Guimaraes E.P., Weltzien E. (Eds.). FAO, Rome, pp: 159-194
Maluszynski M., Szarejko I., Małuszynska J. 2003. Mutation techniques. In: Encyclopedia of Applied Plant Sciences. Thomas B., Murphy D.J., Murray B.G. (Eds.) Elsewier Academic Press, pp: 186-201
Maluszynski M., Szarejko I. 2005. Induced mutations in the green and gene revolution. In: In the Wake of the Double Helix: From the Green Revolution to the Gene Revolution. Tuberosa R., Phillips R.L., Gale M. (Eds.). Bologna, Italy, pp: 403-425
Maluszynska J., Plewa M. 2003. Bioassays in Plant Cells for Improvement of Ecosystem and Human Health. A Course Manual. Wydawnictwo Uniwersytetu Śląskiego, Katowice
Kurowska, M., A. Daszkowska-Golec, D. Gruszka, M. Marzec, M. Szurman, I. Szarejko and M. Maluszynski. 2011. TILLING - a shortcut in functional genomics. Journal of Applied Genetics 52(4): 371-90
Literatura uzupełniająca
Brown T.A. 2009. Genomy. PWN, Warszawa
Kurowska, M., A. Labocha-Pawłowska, D. Gnizda, M. Maluszynski and I. Szarejko. 2012. Molecular analysis of point mutations in a barley genome exposed to MNU and gamma rays. Mutation Research - Fundamental and Molecular Mechanisms of Mutagenesis 738-739:52-70
Kurowska, M., M. Małuszynski and I. Szarejko. 2011. Wykorzystanie strategii TILLING w hodowli roślin. Postępy Nauk Rolniczych. 3: 19-32
Manova V., Gruszka D. 2015. DNA damage and repair in plants – from models to crops. Frontiers in Plant Science 6: 885.
Plant Mutation Breeding and Biotechnology. 2012. Shu, Q., B. P. Forster and H. Nakagawa (Eds.) CABI Publishing House, Wallingford, UK
Szarejko, I., M. Szurman-Zubrzycka, M. Nawrot, M. Marzec, D. Gruszka, M. Kurowska, B. Chmielewska, J. Zbieszczyk, J. Jelonek, M. Maluszynski. 2017. Creation of a TILLING population in barley after chemical mutagenesis with sodium azide and MNU. In: Biotechnology for plant mutation breeding. Protocols. Jankowicz-Cieslak J., Tai T.H., Kumlehn J., Till B.J (Eds) Join FAO/IAEA Division, Springer Open, Switzerland, pp. 91-112
Szurman-Zubrzycka M., Zbieszczyk J., Marzec M., Jelonej J., Chmielewska B., Kurowska M., Krok M., Daszkowska-Golec A., Guzy-Wrobelska J., Gruszka D., Gajecka M., Gajewska P. Stolarek M., Tylec P., Sega P., Lip S., Kudelko M., Lorek M., Gorniak-Walas M., Malolepszy A., Podsiadlo N., Szyrajew K., Keisa A., Mbambo Z., Todorovska E., Gak M., Nita Z., Orlowska-Job W., Maluszynski M. and Szarejko I. 2018. HorTILLUS – a rich and renewable source of induced mutations for forward/reverse genetics and pre-breeding programs in barley (Hordeum vulgare L.). Frontiers in Plant Science 9:216
Van Harten A.M. 1998. Mutation Breeding. Theory and Practical Applications. Cambridge University Press, UK
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