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A CURRENT OVERVIEW OF PLANT BIOTECHNOLOGY


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A CURRENT OVERVIEW OF PLANT BIOTECHNOLOGY

Kaynakça Abel, P. P., Nelson, R. S., De, B., Hoffmann, N., Rogers, S. G., Fraley, R. T., & Beachy, R. N. (1986). Delay of disease development in transgenic plants that express the tobacco mosaic virus coat protein gene. Science, 232(4751), 738-743. Akbaş, B. (2019). Sürdürülebilir tarımda entegre mücadele çalışmalarının ülkemiz açısından değerlendirilmesi. Yalvaç akademi dergisi, 4(1), 32-40. Akbudak, M. A., & Kontbay, K. (2017). Yeni nesil genom düzenleme teknikleri: ZFN, TALEN, CRISPR’lar ve bitkilerde kullanımı. Tarla bitkileri merkez araştırma enstitüsü dergisi, 26(1), 111-126. Albustanlıoğlu, T., & Yılmaz, İ. (2021). Gastroarkeoloji: arkeolojik gıda kalıntılarından antik DNA’nın geri kazanımı. Journal of tourism and gastronomy studies, 5, 42-60. American Society of Plant Biologists. (2014). Agrobacterium tumefaciens pathogen and useful tool Agrobacterium tumefacien. https://slidetodoc.com/agrobacterium-tumefaciens-pathogen-and-useful-tool-agrobacterium-tumefaciens/ Arimura, S. I. (2022). MitoTALENs: A method for targeted gene disruption in plant mitochondrial genomes. In Plant Mitochondria, Humana, New York, 335-340. Arvas, Y. E., & Kocaçalışkan, İ. (2020). Genetiği değiştirilmiş bitkilerin biyogüvenlik riskleri. Türk doğa ve fen dergisi, 9(2), 201-210. Ball, E. (1946). Development in sterile culture of stem tips and subjacent regions of Tropaeolum majus L. and of Lupinus albus L. American journal of botany, 33, 301-318. Baltacı, A. M., & Arslan, M. (2020). Bitki ıslahında CRISPR/Cas9 uygulamaları.Erciyes tarım ve hayvan bilimleri dergisi, 3(2), 32-40. Bao, A., Burritt, D. J., Chen, H., Zhou, X., Cao, D., & Tran, L. S. P. (2019). The CRISPR/Cas9 system and its applications in crop genome editing. Critical reviews in biotechnology, 39(3), 321-336. Baran, M. F., Bellitürk, K., & Çelik, A. (2021). Türkiye’de sürdürülebilir tarım uygulamaları: zorluklar ve potansiyeller. İksad publishing house. Barton, K. A., Whiteley, H. R., & Yang, N. S. (1987). Bacillus thuringiensis endotoxin expressed in transgenic Nicotiana tabacum provides resistance to Lepidopteran insects. Plant physiology, 85(4), 1103-1109. Basak, N., Verma, V. C., Kumar, R., & Kumar, G. (2021). Mechanism of ZFN-mediated genome editing: scope and opportunities. In Genome Editing in Plants: Principles and Applications, CRC Press, UK&USA, 13-27. Bass, S. B., Brajuha, J., Kelly, P. J., D'Avanzo, P., Lambertini, E., Nordhagen, S., & Monterrosa, E. C. (2022). Changing behavior, attitudes, and beliefs about food safety: a scoping review of ınterventions across the world and ımplications for empowering consumers. Foodborne pathogens and Disease, 19(1), 19-30. Bayramoğlu, Z., Tekin, M., & Ağızan, K. (2018). Türkiye’de biyoekonomi girişimciliğinin tarımdaki önemi. Kahramanmaraş sütçü imam üniversitesi tarım ve doğa dergisi, 21, 227-236. Belhaj, K., Chaparro-Garcia, A., Kamoun, S., Patron, N. J., & Nekrasov, V. (2015). Editing plant genomes with CRISPR/Cas9. Current opinion in biotechnology, 32, 76-84. Benjamin-Cummings. (2004). Genetic engineering using Agrobacterium. Pearson Education, Inc. https://sphweb.bumc.bu.edu/otlt/MPH-Modules/PH/GMOs/GMOs3.html Bergmann, L. (1960). Growth and division of single cells of higher plants in-vitro. The journal of general physiology, 43(4), 841-851. Bhoi, A., Yadu, B., Chandra, J., & Keshavkant, S. (2022). Mutagenesis: a coherent technique to develop biotic stress resistant plants. Plant stress, 3, 100053. Blattner, F. R., Plunkett, G., Bloch, C. A., Perna, N. T., Burland, V., Riley, M., Collado-Vides, J., Glasner, J. D., Rode, C. K., Mayhew, G. F., Gregor, J., Davis, N. W., Kirkpatrick, H. A., Goeden, M. A., Rose, D. J., Mau, B., & Shao, Y. (1997). The complete genome sequence of Escherichia coli K-12. Science, 277(5331), 1453-1462. Boch, J. (2011). TALEs of genome targeting. Nature biotechnology, 29(2), 135-136. Boch, J., Scholze, H., Schornack, S., Landgraf, A., Hahn, S., Kay, S., Lahaye, T., Nickstadt, A., & Bonas, U. (2009). Breaking the code of DNA binding specificity of TAL-type III effectors. Science, 326(5959), 1509-1512. Borrelli, V. M., Brambilla, V., Rogowsky, P., Marocco, A., & Lanubile, A. (2018). The enhancement of plant disease resistance using CRISPR/Cas9 technology. Frontiers in plant science, 9, 1245. Bortesi, L., & Fischer, R. (2015). The CRISPR/Cas9 system for plant genome editing and beyond. Biotechnology advances, 33(1), 41-52. Bradford, J. (2019). The Future is Rural: Food System Adaptations to the Great Simplification. Post Carbon Institute, USA. Cardoza, V. (2008). Tissue culture: the manipulation of plant development. Plant biotechnology and genetics: principles, techniques, and applications, 113-134. Carlson, P. S. (1970). Induction and isolation of auxotrophic mutants in somatic cell cultures of Nicotiana tabacum. Science, 168(3930), 487-489. Carlson, P. S., Smith, H. H., & Dearing, R. D. (1972). Parasexual interspecific plant hybridization. Proceedings of the national academy of sciences, 69(8), 2292-2294. Carr, J. (2020). Agrobacterium tumefaciens. 365 Days of Microscopy. https://jcarrbiomed.com/agrobacterium-tumefaciens/ Carroll, D. (2011). Genome engineering with zinc-finger nucleases. Genetics, 188(4), 773-782. Carroll, D. (2014). Genome engineering with targetable nucleases. Annual review of biochemistry, 83, 409-439. Chassy, B. M. (2010). Food safety risks and consumer health. New Biotechnology, 27(5), 534-544. Chawla, H. (2011). Introduction to plant biotechnology. CRC Press, New York. Chen, J. S., Ma, E., Harrington, L. B., Da Costa, M., Tian, X., Palefsky, J. M., & Doudna, J. A. (2018). CRISPR-Cas12a target binding unleashes indiscriminate single-stranded DNase activity. Science, 360(6387), 436-439. Chen, K., Wang, Y., Zhang, R., Zhang, H., & Gao, C. (2019). CRISPR/Cas genome editing and precision plant breeding in agriculture. Annual review of plant biology, 70, 667-697. Chilton, M. D., Drummond, M. H., Merlo, D. J., Sciaky, D., Montoya, A. L., Gordon, M. P., & Nester, E. W. (1977). Stable incorporation of plasmid DNA into higher plant cells: the molecular basis of crown gall tumorigenesis. Cell, 11(2), 263-271. Cocking, E. C. (1960). A method for the isolation of plant protoplasts and vacuoles. Nature, 187(4741), 962-963. Cohen, S. N., Chang, A. C., Boyer, H. W., & Helling, R. B. (1973). Construction of biologically functional bacterial plasmids in-vitro. Proceedings of the national academy of sciences, 70(11), 3240-3244. Collard, B. C., & Mackill, D. J. (2008). Marker-assisted selection: an approach for precision plant breeding in the twenty-first century. Philosophical transactions of the royal society B. 363(1491), 557-572. Cong, L., Ran, F. A., Cox, D., Lin, S., Barretto, R., Habib, N., Hsu, P. D., Wu, X., Jiang, W., Marraffini, L. A., & Zhang, F. (2013). Multiplex genome engineering using CRISPR/Cas systems. Science, 339(6121), 819-823. Curtis, M. D., & Mann, D. G. (2016). Recombinant DNA, vector design, and construction. Plant biotechnology and genetics: Principles, techniques, and applications, 181-210. Çetiner, S., & Tuzla, İ. (2005). Türkiye ve dünyada tarımsal biyoteknoloji ve gıda güvencesi: sorunlar ve öneriler. GDO Bilgi Platformu, Sabancı Üniversitesi, İstanbul, 18. https://www.inovasyon.gen.tr/images/makaleler/sizdenBize/S.Cetiner.Inovasyon.org.pdf DaMatta, F. M., Grandis, A., Arenque, B. C., & Buckeridge, M. S. (2010). Impacts of climate changes on crop physiology and food quality. Food research international, 43(7), 1814-1823. Dagla, H. R. (2012). Plant tissue culture. Resonance, 17(8), 759-767. Datta, D., Gupta, S., Chaturvedi, S. K., & Nadarajan, N. (2011). Molecular markers in crop improvement. Indian institute of pulses research, 208, 24. Dietrich, L., Meister, J., Dietrich, O., Notroff, J., Kiep, J., Heeb, J., Beuger, A., & Schütt, B. (2019). Cereal processing at Early Neolithic Göbekli Tepe, southeastern Turkey. PLoS One, 14(5), e0215214. Doyle, J. J., & Persley, G. J. (1996). New biotechnologies, an international perspective In: Investment Strategies for Agricultural and Natural Resources Research. CAB Int., Wallingford, UK. Eckardt, N. A. (2003). A new classic of cytokinin research: cytokinin-deficient Arabidopsis plants provide new insights into cytokinin biology. Plant cell, 15(11), 2489-2492. Erbaş, M., & Arslan, S. (2012). Açlığın önlenmesi ve gıda güvencesinin sağlanması. Gıda mühendisliği dergisi, 36, 50-59. Feng, Z., Zhang, B., Ding, W., Liu, X., Yang, D. L., Wei, P., Cao, F., Zhu, S., Zhang, F., Mao, Y., & Zhu, J. K. (2013). Efficient genome editing in plants using a CRISPR/Cas system. Cell research, 23(10), 1229-1232. Fernandez-Gutierrez, A., & Gutierrez-Gonzalez, J. J. (2021). Bioinformatic-based approaches for disease-resistance gene discovery in plants. Agronomy, 11(11), 2259. Finer, J., & Dhillon, T. (2008). Transgenic plant production. Plant biotechnology and genetics: principles, techniques, and applications, 245-274. Fodor, S. P., Read, J. L., Pirrung, M. C., Stryer, L., Lu, A. T., & Solas, D. (1991). Light-directed, spatially addressable parallel chemical synthesis. Science, 251(4995), 767-773. Gautheret, R. J. (1934). Culture du tissue cambial. C. R. Acad Sci (Paris) Sér III, 198, 2195–2196. Gengenbach, B. G., & Green, C. E. (1975). Selection of T-cytoplasm maize callus cultures resistant to Helminthosporium maydis race T pathotoxin 1. Crop science, 15(5), 645-649. Gest, H. (2004). The discovery of microorganisms by Robert Hooke and Antoni Van Leeuwenhoek, fellows of the Royal Society. Notes and records of the royal society of london, 58(2), 187-201. Goff, S. A. et al. (2002). A draft sequence of the rice genome (Oryza sativa L. ssp. japonica). Science, 296(5565), 92-100. Goffeau, A. et al. (1997). The yeast genome directory. Nature, 387(6632), 5-6. Gökırmaklı, Ç., & Bayram, M. (2018). Gıda için gelecek öngörüleri: Yıl 2050. Akademik gıda, 16(3), 351-360. Gözükırmızı, N., & Karlık, E. (2017). Bitki biyoteknolojisinde tarihsel gelişmeler. TÜRKTOB - Türkiye tohumcular birliği dergisi, (24), 4-11. Graham, D. B., & Root, D. E. (2015). Resources for the design of CRISPR gene editing experiments. Genome biology, 16(1), 1-21. Gudeta, D. (2019). Genome editing: tools and application in plants. Journal of microbiology & biotechnology. 4(1), 000135, 13. Guha, S., & Maheshwari, S. C. (1966). Cell division and differentiation of embryos in the pollen grains of Datura in-vitro. Nature, 212(5057), 97-98. Haberlandt, G. (1902). Culturversuche mit isolierten Pflanzenzellen. In Plant tissue culture, Springer, Vienna. 1-24. Hanjra, M. A., & Qureshi, M. E. (2010). Global water crisis and future food security in an era of climate change. Food policy, 35(5), 365-377. Hannig, E. E. (1904). Zur Physiologie pflanzlicher Embryonen. A. Felix. Holtorf, H., Guitton, M. C., & Reski, R. (2002). Plant functional genomics. Naturwissenschaften, 89(6), 235-249. Hooke, R. (2003). Micrographia: or some physiological descriptions of minute bodies made by magnifying glasses, with observations and inquiries thereupon. Courier Corporation, Mineola, New York. Horsch, R. B., Fraley, R. T., Rogers, S. G., Sanders, P. R., Lloyd, A., & Hoffmann, N. (1984). Inheritance of functional foreign genes in plants. Science, 223(4635), 496-498. Jackson, D. A., Symons, R. H., & Berg, P. (1972). Biochemical method for inserting new genetic information into DNA of Simian Virus 40: circular SV40 DNA molecules containing lambda phage genes and the galactose operon of Escherichia coli. Proceedings of the national academy of sciences, 69(10), 2904-2909. Jankele, R., & Svoboda, P. (2014). TAL effectors: tools for DNA targeting. Briefings in functional genomics, 13(5), 409-419. Jansen, R., Embden, J. D. V., Gaastra, W., & Schouls, L. M. (2002). Identification of genes that are associated with DNA repeats in prokaryotes. Molecular microbiology, 43(6), 1565-1575. Jiang, F., & Doudna, J. A. (2017). CRISPR–Cas9 structures and mechanisms. Annual review of biophysics, 46, 505-529. Jinek, M., Chylinski, K., Fonfara, I., Hauer, M., Doudna, J. A., & Charpentier, E. (2012). A programmable dual-RNA–guided DNA endonuclease in adaptive bacterial immunity. Science, 337(6096), 816-821. Kamburova, V. S., Nikitina, E. V., Shermatov, S. E., Buriev, Z. T., Kumpatla, S. P., Emani, C., & Abdurakhmonov, I. Y. (2017). Genome editing in plants: an overview of tools and applications. International journal of agronomy. 315351, 15. Kanta, K. (1960). Intra-ovarian pollination in Papaver rhoeas L. Nature, 188(4751), 683-684. Kar, B. (2019). Modern tarımsal biyoteknoloji alanları ve faydaları. EJONS - Internatıonal journal on mathematics, engineering & natural sciences, 12. Kesawat, M. S., & Kumar, B. D. (2009). Molecular markers: it’s application in crop improvement. Journal of Crop Science and Biotechnology, 12(4), 169-181. Khan, M. A., Kiran, U., Ali, A., Abdin, M. Z., Zargar, M. Y., Ahmad, S., Sofi, P. A., & Gulzar, S. (2017). Molecular markers and marker-assisted selection in crop plants. In Plant Biotechnology: Principles and Applications, Springer, Singapore, 295-328. Khan, Z., Khan, S. H., & Ahmad, A. (2022). Challenges and future prospects of CRISPR technology. In The CRISPR/Cas Tool Kit for Genome Editing, Springer, Singapore, 311-333. Kılıç, İ., Doğan, İ., & Saraçlı, S. (2019). The assessment of laboratory safety in terms of biosafety: an application in Afyon Kocatepe University. Kocatepe Veterinary Journal, 12(1), 82-88. Kim, Y. G., Cha, J., & Chandrasegaran, S. (1996). Hybrid restriction enzymes: zinc finger fusions to Fok I cleavage domain. Proceedings of the National Academy of Sciences, 93(3), 1156-1160. Klein, T. M., Wolf, E. D., Wu, R., & Sanford, J. C. (1987). High-velocity microprojectiles for delivering nucleic acids into living cells. Nature, 327(6117), 70-73. Kotte, W. (1922a). Wurzelmeristem in Gewebekultur. Ber. Deut. Ges. 40, 269-272. Kotte, W. (1922b). Kulturversuche mit isolierten Wurzelspitzen. Beitr. Allg. Bot. 2, 413-434. Krens, F. A., Molendijk, L., Wullems, G. J., & Schilperoort, R. A. (1982). In-vitro transformation of plant protoplasts with Ti-plasmid DNA. Nature, 296(5852), 72-74. Kurt, O., & Şavşatlı, Y. (2005). Bitkisel biyoteknolojiye genel bir bakış. Anadolu tarım bilimleri dergisi, 20(3), 129-133. Kutman, B. Y. (2018). Biyoteknoloji çağına hoş geldiniz!, Tarımsal biyoteknoloji, 79-119. Larkin, P. J., & Scowcroft, W. R. (1981). Somaclonal variation-a novel source of variability from cell cultures for plant improvement. Theoretical and applied genetics, 60(4), 197-214. Li, T., Liu, B., Spalding, M. H., Weeks, D. P., & Yang, B. (2012). High-efficiency TALEN-based gene editing produces disease-resistant rice. Nature biotechnology, 30(5), 390-392. Li, Y., Yuan, F., Wen, Z., Li, Y., Wang, F., Zhu, T., Zhuo, W., Jin, X., Wang, Y., Zhao, H., Pei, Z. M., & Han, S. (2015). Genome-wide survey and expression analysis of the OSCA gene family in rice. BMC plant biology, 15(1), 1-13. Lin, S. Y., & Kwan, H. S. (2012). Recent advances of in vitro embryogenesis of monocotyledon and dicotyledon. In Embryogenesis. IntechOpen. Low, L. Y., Yang, S. K., Kok, D. X. A., Ong-Abdullah, J., Tan, N. P., & Lai, K. S. (2018). Transgenic plants: gene constructs, vector and transformation method. New visions in plant science. Intech Open, London, 41-61. Lowder, L., Malzahn, A., & Qi, Y. (2016). Rapid evolution of manifold CRISPR systems for plant genome editing. Frontiers in plant science, 7, 1683. Mahapatra, D. M., Satapathy, K. C., & Panda, B. (2022). Biofertilizers and nanofertilizers for sustainable agriculture: phycoprospects and challenges. Science of the total environment, 803, 149990. Malzahn, A., Lowder, L., & Qi, Y. (2017). Plant genome editing with TALEN and CRISPR. Cell & bioscience, 7(1), 1-18. Marton, L., Wullems, G. J., Molendijk, L., & Schilperoort, R. A. (1979). In-vitro transformation of cultured cells from Nicotiana tabacum by Agrobacterium tumefaciens. Nature, 277(5692), 129-131. Massachusetts Institute of Technology. (2015). https://www.weforum.org/agenda/2015/11/how-gene-editing-is-changing-the-world/ Maxam, A. M., & Gilbert, W. (1977). A new method for sequencing DNA. Proceedings of the national academy of sciences, 74(2), 560-564. McGinn, J., & Marraffini, L. A. (2019). Molecular mechanisms of CRISPR–Cas spacer acquisition. Nature reviews microbiology, 17(1), 7-12. Mehta, M. D., & Gair, J. J. (2001). Social, political, legal and ethical areas of inquiry in biotechnology and genetic engineering. Technology in society, 23(2), 241-264. Melchers, G., Sacristán, M. D., & Holder, A. A. (1978). Somatic hybrid plants of potato and tomato regenerated from fused protoplasts. Carlsberg research communications, 43(4), 203-218. Mertz, J. E., & Davis, R. W. (1972). Cleavage of DNA by R1 restriction endonuclease generates cohesive ends. Proceedings of the national academy of sciences, 69(11), 3370-3374. Miller, C. O., Skoog, F., Von Saltza, M. H., & Strong, F. M. (1955). Kinetin, a cell division factor from deoxyribonucleic acid1. Journal of the american chemical society, 77(5), 1392-1392. Miraglia, M., Marvin, H. J. P., Kleter, G. A., Battilani, P., Brera, C., Coni, E., Cubadda, F., Croci, L., De Santis, B., Dekkers, S., Filippi, L., Hutjes, R. W. A., Noordam, M. Y., Pisante, M., Piva, G., Prandini, A., Toti, L., van den Born, G. J., & Vespermann, A. (2009). Climate change and food safety: an emerging issue with special focus on Europe. Food and chemical toxicology, 47(5), 1009-1021. Moose, S. P., & Mumm, R. H. (2008). Molecular plant breeding as the foundation for 21st century crop improvement. Plant physiology, 147(3), 969-977. Muir, W. H., Hildebrandt, A. C., & Riker, A. J. (1954). Plant tissue cultures produced from single isolated cells. Science, 119(3103), 877-878. Mullis, K., Faloona, F., Scharf, S., Saiki, R., Horn, G., & Erlich, H. (1986). Specific enzymatic amplification of DNA in-vitro: the polymerase chain reaction. In Cold Spring Harbor Symposia on Quantitative Biology, Cold Spring Harbor Laboratory Press, 51, 263-273. Murashige, T., & Skoog, F. (1962). A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiologia plantarum, 15(3), 473-497. Mushtaq, M., Bhat, J. A., Mir, Z. A., Sakina, A., Ali, S., Singh, A. K., Tyagi, A., Salgotra, R. K., Dar, A. A., & Bhat, R. (2018). CRISPR/Cas approach: a new way of looking at plant-abiotic interactions. Journal of plant physiology, 224, 156-162. Muzaffar, S., & Prasad, B. D. (2017). History of biotechnology. In Plant Biotechnology, Apple Academic Press, Boca Raton, 3(1)-25. Nadakuduti, S. S., & Enciso-Rodríguez, F. (2021). Advances in genome editing with CRISPR systems and transformation technologies for plant DNA manipulation. Frontiers in plant science, 11, 2267. Narula, A., Kumar, S., Bansal, K. C., & Srivastava, P. S. (2004). Biotechnological approaches towards improvement of medicinal plants. In Plant Biotechnology and Molecular Markers, Springer, Dordrecht, Springer Science & Business Media, Boston, 78-116. Noman, A., Aqeel, M., & He, S. (2016). CRISPR-Cas9: tool for qualitative and quantitative plant genome editing. Frontiers in plant science, 7, 1740. Nonhebel, S. (2005). Renewable energy and food supply: will there be enough land? Renewable and sustainable energy reviews, 9(2), 191-201. Novak, S. (2019). Plant biotechnology applications of zinc finger technology. In Transgenic Plants, Humana Press, New York, 295-310. O'Farrell, P. H. (1975). High resolution two-dimensional electrophoresis of proteins. Journal of biological chemistry, 250(10), 4007-4021. Özgen, M., Ertunç, F., Kınacı, G., Yıldız, M., Birsin, M., Ulukan, H., Emiroğlu, H., Koyuncu, N., & Sancak, C. (2005). Tarım teknolojilerinde yeni yaklaşımlar ve uygulamalar: bitki biyoteknolojisi. Türkiye ziraat mühendisliği VI. teknik kongresi, 1, 315-346. Özgen, Ö. (2007). Tüketiciler ve modern biyoteknoloji: model yaklaşımlar. Ankara üniversitesi biyoteknoloji enstitüsü yayınları. (1), 254. Özsensoy, Y., & Kurar, E. (2012). Markör sistemleri ve genetik karakterizasyon çalışmalarında kullanımları. Journal of Cell and Molecular Biology, 10(2), 11. Pabo, C. O., Peisach, E., & Grant, R. A. (2001). Design and selection of novel Cys2His2 zinc finger proteins. Annual review of biochemistry, 70(1), 313-340. Pandey, K. K. (1973). Theory and practice of induced androgenesis. New phytologist, 72(5), 1129-1140. Pandita, D. (2022). CRISPR/Cas-mediated genome editing technologies in plants. Plant abiotic stress physiology: responses and adaptations, 1, 293. Park, S. Y., Vaghchhipawala, Z., Vasudevan, B., Lee, L. Y., Shen, Y., Singer, K., Waterworth, W. M., Zhang, Z. J., West, C. E., Mysore, K. S., & Gelvin, S. B. (2015). Agrobacterium T-DNA integration into the plant genome can occur without the activity of key non-homologous end-joining proteins. The plant journal, 81(6), 934-946. Paszkowski, J., Baur, M., Bogucki, A., & Potrykus, I. (1988). Gene targeting in plants. The EMBO journal, 7(13), 4021-4026. Pelletier, G., Primard, C., Vedel, F., Chetrit, P., Remy, R., & Renard, M. (1983). Intergeneric cytoplasmic hybridization in Cruciferae by protoplast fusion. Molecular and general genetics MGG, 191(2), 244-250. Petolino, J. F., & Davies, J. P. (2013). Designed transcriptional regulators for trait development. Plant science, 201, 128-136. Phillips, G. C., & Garda, M. (2019). Plant tissue culture media and practices: an overview. In-vitro cellular & developmental biology plant, 55(3), 242-257. Pierron, J. P., & Varobieff, L. (2019). Bioethics and plant biotechnologies. Revue francaise d'ethique appliquee, (2), 101-112. Polat, P. K., & Yağdı, K. (2021). Bazı ekmeklik buğday genotiplerinde SSR (Mikrosatalit) markörü kullanılarak kahverengi pas dayanıklılık geni Lr10’un belirlenmesi. Kahramanmaraş sütçü imam üniversitesi tarım ve doğa dergisi, 24(4), 850-858. Power, J. B., Cummins, S. E., & Cocking, E. C. (1970). Fusion of isolated plant protoplasts. Nature, 225, 1016-18. Prasad, B. D., Sahni, S., Kumar, P., & Siddiqui, M. W. (2017). Plant biotechnology: principles, techniques and applications, CRC Press, USA, (1), 415-454. Premanandh, J. (2011). Factors affecting food security and contribution of modern technologies in food sustainability. Journal of the science of food and agriculture, 91(15), 2707-2714. Puchta, H., & Fauser, F. (2014). Synthetic nucleases for genome engineering in plants: prospects for a bright future. The plant journal, 78(5), 727-741. Qin, Y., Park, T. S., Cho, Y. S., & Lim, M. H. (2021). TALEN-mediated bar-knockout rice production and transcriptome profiling. Plant breeding and biotechnology, 9(1), 32-44. Rai, P., & Arya, H. (2021). Molecular cloning. In The Design & Development of Novel Drugs and Vaccines, Elsevier Science Publishing Co Inc, San Diego, United States, 135-163. Ramazan, K., & Somuncu, M. (2021). Gıda güvencesi konusunda türkiye için bir değerlendirme. Ankara üniversitesi çevrebilimleri dergisi, 8(2), 1-11. Ranabhatt, H., & Kapor, R. (2017). Plant biotechnology. WPI - Woodhead Publishing India, (1), 542. Ray, D. K., Mueller, N. D., West, P. C., & Foley, J. A. (2013). Yield trends are insufficient to double global crop production by 2050. PloS one, 8(6), e66428. Reinert, J. (1958). Morphogenese und ihre kontrolle an gewebekulturen aus carotten. Naturwissenschaften, 45, 344-345. Reinert, J. (1959). Über die kontrolle der morphogenese und die induktion von adventivembryonen an gewebekulturen aus karotten. Planta, 53(4), 318-333. Reinhard, E. (1974). Biotransformations by plant tissue cultures. In Tissue Culture and Plant Science. 433-459. Ricroch, A. E., Guillaume-Hofnung, M., & Kuntz, M. (2018). The ethical concerns about transgenic crops. Biochemical journal, 475(4), 803-811. Robbins, W. J. (1922). Cultivation of excised root tips and stem tips under sterile conditions. Botanical gazette, 73(5), 376-390. Robbins, W. J. (1922b). Effect of autolized yeast and peptone on growth of excised corn root tips in the dark. Botanical gazette, 74(1), 59-79. Rout, G. R. (2004). Effect of cytokinins and auxins on micropropagation of Clitoria ternatea L. Biol. lett, 41(1), 21-26. Römer, P., Hahn, S., Jordan, T., Strauss, T., Bonas, U., & Lahaye, T. (2007). Plant pathogen recognition mediated by promoter activation of the pepper Bs3 resistance gene. Science, 318(5850), 645-648. Sah, N. K. (2017). Scope of plant biotechnology in the developing countries. In Plant Biotechnology: Principles, Techniques, and Applications, CRC Press, USA, (1), 45-67. Sambrook, J., Fritsch, E. F., & Maniatis, T. (1989). Molecular cloning: a laboratory manual. Molecular cloning: a laboratory manual., (2). Sanford, J. C., Klein, T. M., Wolf, E. D., & Allen, N. (1987). Delivery of substances into cells and tissues using a particle bombardment process. Particulate science and technology, 5(1), 27-37. Sanghvi, G. V., & Dave, G. S. (2017). Molecular markers in plant biotechnology. In Plant Biotechnology: Principles, Techniques, and Applications, CRC Press, USA, (1), 415-454. Sauer, N. J., Mozoruk, J., Miller, R. B., Warburg, Z. J., Walker, K. A., Beetham, P. R., Schöpke, C. R., & Gocal, G. F. W. (2016). Oligonucleotide-directed mutagenesis for precision gene editing. Plant biotechnology journal, 14(2), 496-502. Seibert, M. (1976). Shoot initiation from carnation shoot apices frozen to -196°C. Science, 191(4232), 1178-1179. Shan, Q., Wang, Y., Li, J., Zhang, Y., Chen, K., Liang, Z., Zhang, K., Liu, J., Xi, J. J., Qiu, J. L., & Gao, C. (2013). Targeted genome modification of crop plants using a CRISPR-Cas system. Nature biotechnology, 31(8), 686-688. Shankar, S., Uddin, I., & Afzali, S. F. (2017). Restriction endonucleases. Plant Biotechnology: Principles, Techniques, and Applications, CRC Press, USA, (1), 235-259. Sharma, S., Kaur, R., & Singh, A. (2017). Recent advances in CRISPR/Cas mediated genome editing for crop improvement. Plant biotechnology reports, 11(4), 193-207. Shinozaki, K., Ohme, M., Tanaka, M., Wakasugi, T., Hayashida, N., Matsubayashi, T., Zaita, N., Chunwongse, J., Obokata, J., Yamaguchi-Shinozaki, K., Ohto, C., Torazawa, K., Meng, B. Y., Sugita, M., Deno, H., Kamogashira, T., Yamada, K., Kusuda, J., Takaiwa, F., Kato, A., Tohdoh, N., Shimada, H., & Sugiura, M. (1986). The complete nucleotide sequence of the tobacco chloroplast genome: its gene organization and expression. The EMBO journal, 5(9), 2043-2049. Singh, M., Jaiswal, U., & Jaiswal, V. S. (2005). In-vitro regeneration and improvement in tropical fruit trees: an assessment. In Plant Biotechnology and Molecular Markers. Springer, Dordrecht, Springer Science & Business Media, Boston, 228-244. Singh, V., Bhattacharjee, G., Gohil, N., Maurya, R., Lam, N. L., & Alzahrani, K. J. (2022). An introduction to advanced technologies in synthetic biology. In New Frontiers and Applications of Synthetic Biology, Elsevier Science, Academic Press, (1), 1-9. Sircaik, S. (2021). Biotechnology in agriculture: development, potentials and safety. In Crop Improvement, Taylor & Francis Group, CRC Press, Boca Raton, London, New York, 1-21. Skoog, F., & Miller, C. (1957). Chemical regulation of growth and organ formation in plant tissues cultured. In-vitro symp soc exp biol., 11, 18-131. Steward, F. C., Mapes, M. O., & Mears, K. (1958). Growth and organized development of cultured cells. II. Organization in cultures grown from freely suspended cell. American Journal of Botany, 45(10), 705-708. Stewart, C. N. (2016). Plant biotechnology and genetics: principles, techniques, and applications, John Wiley & Sons, Canada. Sudha, C. G., Sherina, T. V., Anand, V. A., Reji, J. V., Padmesh, P., & Soniya, E. V. (2013). Agrobacterium rhizogenes mediated transformation of the medicinal plant Decalepis arayalpathra and production of 2-hydroxy-4-methoxy benzaldehyde. Plant cell, tissue and organ culture- PCTOC, 112(2), 217-226. Sussex, I. M. (2008). The scientific roots of modern plant biotechnology. The plant cell, 20(5), 1189-1198. Svitashev, S., Young, J. K., Schwartz, C., Gao, H., Falco, S. C., & Cigan, A. M. (2015). Targeted mutagenesis, precise gene editing, and site-specific gene insertion in maize using Cas9 and guide RNA. Plant physiology, 169(2), 931-945. Takebe, I., Labib, G., & Melchers, G. (1971). Regeneration of whole plants from isolated mesophyll protoplasts of tobacco. Naturwissenschaften, 58(6), 318-320. Tastan, C., Yaşar, S., Tanyolaç, M., Turgut, K., Şireli, U., Atak, C., Haliloglu, K., Benlioglu, K., Taşkın, K. M., Barlas, N., & Yıldız, G. (2020). CRISPR-of-things: applications and challenges of the most popular gene editing tool in the fields of health, agriculture and environment. International journal of innovative approaches in science research, 4(4) 153-190. Thieman, W. J., & Palladino, M. A. (2013). Introduction to biotechnology. Pearson Education. (3), 408. Thorpe, T. A. (2006). History of plant tissue culture. Plant cell culture protocols, 9-32. Townsend, J. A., Wright, D. A., Winfrey, R. J., Fu, F., Maeder, M. L., Joung, J. K., & Voytas, D. F. (2009). High-frequency modification of plant genes using engineered zinc-finger nucleases. Nature, 459(7245), 442-445. Tunçgenç, M. (2014). Dünyada ve Türkiye’de biyoteknoloji sanayisine bakış. Lap Lambert Academic Publishing. 45. Van der Maessen, L. J. G. (1972). Cicer L., a monograph of the genus, with special reference to the chickpea (Cicer arietinum L.), its ecology and cultivation (Doctoral dissertation, Veenman). Vasil, I. K. (2008). A short history of plant biotechnology. Phytochemistry Reviews, 7(3), 387-394. Verma, A. S., Agrahari, S., Rastogi, S., & Singh, A. (2011). Biotechnology in the realm of history. Journal of pharmacy and bioallied sciences, 3(3), 321. Viana, C. M., Freire, D., Abrantes, P., Rocha, J., & Pereira, P. (2022). Agricultural land systems importance for supporting food security and sustainable development goals: a systematic review. Science of the total environment, 806, 150718. Vidyasagar, A. (2018). What is CRISPR? Live Science Contributor, Nicoletta Lanese published, https://www.livescience.com/author/aparna-vidyasagar. Vos, P., Hogers, R., Bleeker, M., Reijans, M., Lee, T. V. D., Hornes, M., Friters, A., Pot, J., Paleman, J., Kuiper, M., & Zabeau, M. (1995). AFLP: a new technique for DNA fingerprinting. Nucleic acids research, 23(21), 4407-4414. Voytas, D. F. (2013). Plant genome engineering with sequence-specific nucleases. Annual review of plant biology, 64, 327-350. Voytas, D. F., & Gao, C. (2014). Precision genome engineering and agriculture: opportunities and regulatory challenges. PLoS biology, 12(6), e1001877. Wada, N., Ueta, R., Osakabe, Y., & Osakabe, K. (2020). Precision genome editing in plants: state-of-the-art in CRISPR/Cas9-based genome engineering. BMC Plant Biology, 20, 1-12. Wang, M., & Ha, Y. (2007). An electrochemical approach to monitor pH change in agar media during plant tissue culture. Biosensors and bioelectronics, 22(11), 2718-2723. Watson, R. R., & Preedy, V. R. (2015). Genetically modified organisms in food: Production, safety, regulation and public health. Academic Press, Elsevier Inc, 516. Welsh, J., & McClelland, M. (1990). Fingerprinting genomes using PCR with arbitrary primers. Nucleic acids research, 18(24), 7213-7218. Went, F. (1926). On growth-accelerating substances in the coleoptile of Avena sativa. In Proc Kon Akad Wetensch Amsterdam, 30, 10-19. White, P. R. (1934). Potentially unlimited growth of excised tomato root tips in a liquid medium. Plant physiology, 9(3), 585. Williams, J. G., Kubelik, A. R., Livak, K. J., Rafalski, J. A., & Tingey, S. V. (1990). DNA polymorphisms amplified by arbitrary primers are useful as genetic markers. Nucleic acids research, 18(22), 6531-6535. Wolt, J. D., Wang, K., & Yang, B. (2016). The regulatory status of genome-edited crops. Plant biotechnology journal, 14(2), 510-518. Yadav, N. S., Postle, K., Saiki, R. K., Thomashow, M. F., & Chilton, M. D. (1980). T-DNA of a crown gall teratoma is covalently joined to host plant DNA. Nature, 287(5781), 458-461. Yavuz, F. (2005). Türkiye’de tarım. Tarım ve köyişleri bakanlığı yayınları, Ankara, 1-252. Ye, X., Al-Babili, S., Klöti, A., Zhang, J., Lucca, P., Beyer, P., & Potrykus, I. (2000). Engineering the provitamin A (ß-carotene) biosynthetic pathway into (carotenoid-free) rice endosperm. Science, 287(5451), 303-305. Yu, J. et al. (2002). A draft sequence of the rice genome (Oryza sativa L. ssp. indica). Science, 296(5565), 79-92. Zaenen, I., Van Larebeke, N., Teuchy, H., Van Montagu, M., & Schell, J. (1974). Supercoiled circular DNA in crown-gall inducing Agrobacterium strains. Journal of molecular biology, 86(1), 109-127. Zambryski, P., Holsters, M., Kruger, K., Depicker, A., Schell, J., Van Montagu, M., & Goodman, H. M. (1980). Tumor DNA structure in plant cells transformed by A. tumefaciens. Science, 209(4463), 1385-1391. Zhang, F., Maeder, M. L., Unger-Wallace, E., Hoshaw, J. P., Reyon, D., Christian, M., Li, X., Pierick, C. J., Dobbs, D., Peterson, T., Joung, J. K., & Voytas, D. F. (2010). High frequency targeted mutagenesis in Arabidopsis thaliana using zinc finger nucleases. Proceedings of the National Academy of Sciences, 107(26), 12028-12033. Zhou, D., Song, H., Wang, J., Li, Z., Xu, S., Ji, X., Hou, X., & Xu, J. (2019). Biosafety and biosecurity. Journal of biosafety and biosecurity, 1(1), 15-18. Zhu, H., Li, C., & Gao, C. (2020). Applications of CRISPR–Cas in agriculture and plant biotechnology. Nature reviews molecular cell biology, 21(11), 661-677.

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