1. Bourgis, F., Kader, J.C., Barret, P., Renard, M., Robinson, D., Robinson, C., Delseny, M. and Roscoe, T.J. (1999). A plastidial lysophosphatidic acid acyltransferase from oilseed rape. Plant Physiology, 120: 913-921. 2. Cernac, A. and Benning, C. (2004). WRINKLED1 encodes an AP2/EREB domain protein involved in the control of storage compound biosynthesis in Arabidopsis. The Plant Journal, 40: 575-585. 3. Chen, S., Lei, Y., Xu, X., Huang, J., Jiang, H., Wang, J., Cheng, Z., Zhang, J., Song, Y., Liao, B. and Li, Y. (2015). The peanut (Arachis hypogaea L.) gene AhLPAT2 increases the lipid content of transgenic arabidopsis seeds. PLOS ONE 10: 1-23. 4. Esfahani, K., Motallebi, M. and Zamani, M.R. (2011). Construction of plant expression vectors harboring chitinase (chit42) and glucanase (bgn13.1) genes from trichoderma species. Iranian Journal of Biology, 24: 880-894 (In Persian). 5. Hamid, R., Marashi, H., Tohidfar, M. and Malekzadeh-shafaroudi, S. (2020). Transgenic cotton expressing synthesized antifungal NaD1 gene confers enhanced resistance to fusarium wilt and verticillium wilt. Iranian Journal Modern Genetic, 14: 297-308 (In Persian). 6. Hamid, R., Marashi, H., Tohidfar, M. and Malekzadeh-Shafaroudi, S. (2018). Optimization of regeneration and parameters affecting Agrobacterium-mediated transformation of commercial cultivar of cotton (Gossypium hirsutum L). Iranian Journal Modern Genetic, 12(4): 597-606. (In Persian). 7. Helali, A. (2018). Investigating the Share of Domestic and Imported Oilseeds in the Supply of Household Oil. Research Institute for Planning, Agricultural Economics and Rural Development. Research Services Management, Karaj, Iran (In Persian). 8. Kim, H., Uk Kim, H. and Chung Suh, M. (2012). Efficiency for increasing seed oil content using WRINKLED1 and DGAT1 under the control of two seed-specific promoters, FAE1 and Napin. Journal of Plant Biotechnology, 39: 242-252. 9. Krugel, U. and Kuhn, C. (2013). Post-translational regulation of sucrose transporters by direct protein-protein interactions. Frontiers in Plant Science, 4: 1-7. 10. Liu, J., Hua, W., Zhan, G., Wei, F., Wang, X., Liu, G. and Wang, H. (2009). Increasing seed mass and oil content in transgenic Arabidopsis by the overexpression of WRI1-like gene from Brassica napus. Plant Physiology and Biochemistry, 48: 9-15. 11. Ma, W., Kong, Q., Arondel, V., Kilaru, A., Bates, P.D., Thrower, N.A., Benning, C. and Ohlrogge, J.B. (2013). WRINKLED1, A Ubiquitous Regulator in Oil Accumulating Tissues from Arabidopsis Embryos to Oil Palm Mesocarp. PLOS ONE, 8: 1-13. 12. Maisonneuve, S., Jacques Bessoule, J., Lessire, R., Delseny, M. and Roscoe, T.J. (2010). Expression of rapeseed microsomal lysophosphatidic acid acyltransferase isozymes enhances seed oil content in arabidopsis. Plant Physiology, 152: 670-684. 13. McCormac, A.C., Fowler, M.R., Chen, D.F. and Elliott, M.C. (2001). Efficient co-transformation of Nicotiana tabacum by two independent T-DNAs, the effect of T-DNA size and implications for genetic separation. Transgenic Research, 10: 143-155. 14. Rask, L., Ellerstrom, M., Ezcurra, I., Stalberg, K. and Wycliffe, P. (1998). Seed-specific Regulation of the Napin Promoter in Brassica napus. Journal of Plant Physiology, 152: 595-599. 15. Riechmann, J.L., Heard, J., Martin, G., Reuber, L., Jiang, C., Keddie, J., Adam, L., Pineda, O., Ratcliffe, O.J., Samaha, R.R., Creelman, R., Pilgrim, M., Broun, P., Zhang, J.Z., Ghandehari, D., Sherman, B.K. and Yu, G. (2000). Arabidopsis transcription factors: genome-wide comparative analysis among eukaryotes. Science, 290: 2105-2110. 16. Ruuska, S.A., Girke, T., Benning, C. and Ohlrogge, J.B. (2002). Contrapuntal networks of gene expression during Arabidopsis seed filling. Plant Cell, 14: 1191-1206. 17. Sambrook, J. and Russell, D.W. (2001). Molecular Cloning. Cold Spring Harbor, New York, USA. 18. Savadi, S., Naresh, V., Kumar, V. and Ramachandra, B.S. (2016). Seed-specific overexpression of arabidopsis DGAT1 in Indian mustard (Brassica juncea) increases seed oil and seed weight. Botany, 94: 177-184. 19. Shah Hosseiny, M.H, Ghahri, M., Mahmoudi, M.A. and Moslemi, E. (2015). Standaization of diagnostic PCR by internal amplification control. Biological Journal of Microorganism, 4: 55-68 (In Persian). 20. Snyder, C.L., Yurchenko, O.P., Siloto, R.M.P., Chen, X., Liu, Q., Mietkiewska, E. and Weselake, R.J. (2009). Acyltransferase action in the modification of seed oil iosynthesis. New Biotechnology, 26: 11-16. 21. Soni, R. and Murray, J.A. (1994). Isolation of intact DNA and RNA from plant tissues. Analytical Biochemistry, 2: 474-476. 22. Swarnalatha Devi, I., Dinesh kumar, V., Ansari, N.A. and Sivasankar, A. (2010). Studies on the expression pattern of seed-specific napin promoter (BcNAI) in transgenic (Nicotiana tabacum L.) tobacco seeds. International Journal of Environmental Science and Development, 1: 20-23. 23. Van Erp, H., Kelly, A.A., Menard, G. and Eastmond, P.J. (2014). Multigene engineering of triacylglycerol metabolism boosts seed oil content in Arabidopsis. Plant Physiology, 165: 30-36. 24. Wang, Y., Kausch, A.P., Chandlee, J.M., Luo, H., Ruemmele, B.A., Browning, M. and Goldsmith, M.R. (2003). Co-transfer and expression of chitinase, glucanase, and bar genes in creeping bentgrass for conferring fungal disease resistance. Plant Science, 165: 497-506. 25. Wu, Y., Llewellyn, D.J. and Dennis, E.S. (2002). A quick and easy method for isolating good-quality RNA from cotton (Gossypium hirsutum L.) tissues. Plant Molecular Biology Reporter, 20: 213-218. 26. Zakerghoran, B., Rajabi Memari, H., Nabati Ahmadi, D. and Siahmard, M. (2014). Cloning, transformation and stable expression of a fusion of human interferon gamma and bar genes in Tobacco plant (Nicotiana tobaccum cv. xanthi). Plant Genetic Resaerches, 1(1): 27-36. 27. Zhu, H., Xu, X., Xiao, G., Yuan, L. and Li, B. (2007). Enhancing disease resistances of Super Hybrid Rice with four antifungal genes. Science China Life Sciences, 50: 31-39.
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