MÜSİAD KIRSAL KALKINMA VE TARIMIN GELECEĞİ

SAYFA 507 plants. Plant Cell Tissue and Organ Culture 82: 317-342. • Geisler, G. 1988. Pflanzenbau. Verlag Paul Parey, Berlin und Hamburg, 530 sayfa. • Glazier, A. M., Nadeau, J. H., & Aitman, T. J. 2002. Finding genes that underlie complex traits. Science, 298(5602), 2345-2349. • Gogoi, N., Baruah, K.K. and Gupta, P.K. 2008. “Selection of Rice Genotypes for Lower Methane Emission.” Agronomy for Sustainable Development 28 (2): 181–186. • Gutierrez, A. P., Ponti, L., Herreh, H. R., Baumgartner, J. and Kenmore, P. E. 2015. Deconstructing Indian cotton: weather, yields and suicides. Environ. Sci. Europe, 27–12; • Harmon, K. 2009. Humans feasting on grains for at least 100,000 years. Scientific American. www. scientificamerican.com . • Hatipoğlu, R. 2008. Bitki Biyoteknolojisi. Ç.Ü. Ziraat Fakültesi Genel yayın NO: 190, Ders Kitapları yayın No: A-58.176 s. • Haun W., Coffman A., Clasen BM., Demorest Z.L., Lowy A., Ray E., Retterath A., Stoddard T., Juillerat A., Cedrone F., Mathis L., Voytas D.F. and Zhang F., 2014. Improved soybean oil quality by targeted mutagenesis of the fatty acid desaturase 2 gene family. Plant Biotechnology Journal, 12(7):934-940. • Holland, J.B.2007.Genetic architecture of complex traits in plants. Curr Opin Plant Biol.10(2):156–161. • ISAAA. 2019. Global Status of Commercialized Biotech/GM Crops in 2019: Biotech Crops Drive Socio-Economic Development and Sustainable Environment in the New Frontier. ISAAA Brief No. 55. ISAAA:Ithaca, NY. • ISF,2012. ‘http://www.worldseed.org/resources/seed- statistics/’. • James, C. 1997. Global Status of Transgenic Crops in 1997. ISAAA Briefs No. 5. ISAAA: Ithaca, NY. pp. 31. • James, C. 2014. Global Status of Commercialized Biotech/GM Crops: 2014. ISAAA Brief No. 49. ISAAA: Ithaca, NY. • Jia, P. & Zhao, Z. 2014. Network-assisted analysis to prioritize GWAS results: principles, methods and perspectives. Hum Genet. 2014;133(2):125–138. • Joshı, M.& Deshpande, J.D.2011. Polymerase chain reaction: methods, principles and application. Int J Biomed Res 2(1): 81-97. • Kara S, Benlioğlu B, Güler M, 2014. Türkiye Tahıl Tohumculuğunun Durumu. Türkiye 5. Uluslararası Katılımlı Tohumculuk Kongresi, 19-23 Ekim 2014, Diyarbakır. • Karagöz, A. 2019. Yerel Buğdayların Dünü, Bugünü, Geleceği. TÜRKTOB Dergisi 8(31): 4-15 • Kasha, K.J. ve Kao, K.N. 1970. High frequency haploid production in Barley (Hordeum vulgare. Nature 225:874-876. • Kasha, K.J. ve Maluszynskı, M. 2003. Production of doubled haploids in crop plants. An introduction. In: Maluszynski M, Kasha KJ, Forster BP, Szarejko I, editors. Doubled haploid production in crop plants. Dordrecht: Springer; p. 1–4. • Kesawat, M.S. & Das, B.K. 2009. Molecular Markers: It’s Application in Crop Improvement. J. Crop Sci. Biotech. 12 (4) : 169 -181. • Khush, G.S. & Vırmanı, S.S. 1996. Haploids in plant breeding. In: Jain SM, Sopory SK, Veilleux RE, editors. In vitro haploid production in higher plants. Current plant science and biotechnology in agriculture. Dordrecht, Springer.p. 11–33. • Kordrostami, M. & Rahimi, M. 2015. Molecular markers in plants: Concepts and applications. Genetics in the Third Millennium. 13. 4024-4031. • Kumar, J.,Jaıswal, V.,Kumar, A., Kumar, N., Mır, R. R., Kumar, S., Dharıwal, R., Tyagı, S., Khandelwal, M., Prabhu, K.V., Prasad, R., Balyan, H.S. & Gupta, P.K. 2011. “Introgression of a major gene for high grain protein content in some indian bread wheat cultivars”, Field Crops Research, 123 (3), 226-233. • Lee H.B., Sundberg B.N., Sigafoos A.N. and Clark K.J., 2016. Genome Engineering with TALE and CRISPR Systems in Neuroscience. Frontiers in Genetics, 7. • Li T., Liu B., Spalding M.H., Weeks D.P. and Yang B., 2012. High- efficiency TALEN-based gene editing produces disease-resistant rice. Nature Biotechnology, 30(5):390-392 • Mandal, L., Verma, S.K., Sasmal, S. & Katara, J. 2018.Potential Applications of Molecular Markers in Plant . Curr Trends Biomedical Eng & Biosci 12(4):1-3. • Martin, J.M., Talbert, L.E., Lanning, S.P. & Blake, N.K. 1995. Hybrid performance in wheat as related to parental diversity. Crop Sci. 1995;35(1):104–108. • Melchınger, A.E. 1993. Use of RFLP markers for analyses of genetic relationships among breeding materials and prediction of hybrid performance. Proc. of the First Int. Crop Science Congress. • Nadeem, M. A., Nawaz, M. A., Shahid, M. Q., Doğan, Y., Comertpay, G., Yıldız, M., & Ozkan, H. 2018. DNA molecular markers in plant breeding: current status and recent advancements in genomic selection and genome editing. Biotechnology & Biotechnological Equipment, 32(2), 261-285. • Nandakumar N, Singh Ak, Sharma Rk, Mohapatra T, Prabhu Kv, Zaman Fu. 2004. Molecular fingerprinting of hybrids and assessment of genetic purity of hybrid seeds in rice using microsatellite markers. Euphytica 136:257–264 • Nordlee, J. A., Taylor, S. L., Townsend, J. A., Thomas, L. A., KIRSAL KALKINMA VE TARIMIN GELECEĞI RAPORU - 2021