[
Belo, A., Zheng, P., Luck, S., Shen, B., Meyer, D. J., Li, B., Tingey, S., Rafalski, A. (2008). Whole genome scan detects an allelic variant of fad2 associated with increased oleic acid levels in maize. Mol. Genet. Genom., 279 (1), 1–10.10.1007/s00438-007-0289-y17934760
]Search in Google Scholar
[
Boyer, C. D, Hannah, L. C. (2001). Kernel mutants of maize. In: Hallauer, A. R. (Ed.). Specialty maizes. 2nd edn. CRC Press, Boca Raton-London-New-York-Washington D.C., pp. 8–38.
]Search in Google Scholar
[
Canvin, D. T. (2011). The effect of temperature on the oil content and fatty acid composition of the oils from several oil seed crops. Canad. J. Bot., 43 (1), 63–69.
]Search in Google Scholar
[
Changizi, M., Choucan, R., Heravan, E. M., Bihamta, M. R., Darvish, F. (2014). Evaluation of genotype_environment interaction and stability of maize hybrids and relationship among univariate parametric methods. Canad. J. Plant Sci., 94 (7), 1255–1267.10.4141/cjps2013-386
]Search in Google Scholar
[
Coe, E. H., Schaeffer, M. L. (2005). Genetic, physical, maps, and database resources for maize. Maydica, 50 (3), 285–303.
]Search in Google Scholar
[
Cook, J. P., McMullen, M. D., Holland, J. B., Tian, F., Bradbury, P., Ross-Ibarra, J., Buckler, E. S., Flint-Garcia, S. A. (2012). Genetic architecture of maize kernel composition in the nested association mapping and in-bred association panels. Plant Physiol., 158 (2), 824–834.10.1104/pp.111.185033327177022135431
]Search in Google Scholar
[
Dar, A. A., Choudhury, A. R., Kancharla, P. K., Arumugam, N. (2017). The FAD2 gene in plants: Occurrence, regulation, and role. Front. Plant Sci., 8, 1789.10.3389/fpls.2017.01789565152929093726
]Search in Google Scholar
[
De Alzaa, F., Guillaume, C., Ravetti, L. (2018). Evaluation of chemical and physical changes in different commercial oils during heating. Acta Sci. Nutr. Health, 2 (6), 2–11.
]Search in Google Scholar
[
Dospekhov, B. A. (2011). Techniques of Field Experiment (With the Basics of Statistical Processing of Research Results) [Доспехов, Б. А. Методика полевого опыта (с основами статистической обработки результатов исследований)]. 6th edn. Alliance, Moscow. 350 pp. (in Russian).
]Search in Google Scholar
[
Egesel, C. O., Kahriman, F., Gul, M. K. (2011). Discrimination of maize inbreds for kernel quality traits and fatty acid composition by a multivariate technique. Acta Sci. Agron., 33 (4), 613–620.10.4025/actasciagron.v33i4.11031
]Search in Google Scholar
[
Gavrilova, V., Shelenga, T., Porokhovinova, E., Dubovskaya, A., Kon’kova, N., Grigoryev, S., Podolnaya, L., Konarev, A., Yakusheva, T., Kishlyan, N., Pavlov, A., Brutch, N. (2020). The diversity of fatty acid composition in traditional and rare oil crops cultivated in Russia. Bio. Comm., 65 (1), 68–81.10.21638/spbu03.2020.106
]Search in Google Scholar
[
Gutsol, V. V., Zhuravel, I. A., Guryeva, I. G., Kislichenko, V. S. (2015). The studGutsol, V. V., Zhuravel, I. A., Guryeva, I. G., Kislichenko, V. S. (2015). The study of fatty acids in the seeds of lettuce variety “Lollo Rosso” [Гуцол, В. В., Журавель, И. А., Гурьева, И. Г., Кисличенко, В. С. Изучение жирных кислот в семенах салата сорта «Лолло Россо»]. Bulletin of the Kazakh National Medical University, 4, 476–478 (in Russian).
]Search in Google Scholar
[
Karakor, K., Cam, M. (2015). Effects of oleic acid. Med. Sci. Discov., 2 (1), 125–132.10.36472/msd.v2i1.53
]Search in Google Scholar
[
Leao, J. D., Bouillon, V., Muntada, L., Johnson, C., Wilson, P., Vergness, O., Dano, C., Igartua, A., Mendoza, G. (2016). New formulations of sunflower based bio-lubricants with high oleic acid content – VOSOLUB project. Oils & Fats Crops Lipids, 23 (5), D 509.10.1051/ocl/2016033
]Search in Google Scholar
[
Li, H., Peng, Z., Yang, X., Wang, W., Fu, J., Wang, J., Han, Y., Chai, Y., Guo, T., Yang, N., Liu, J., Warburton, M. L., Cheng, Y., Hao, X., Zhang, P., Zhao, J., Liu, Y., Wang, G., Li, J., Yan, J. (2012). Genome-wide association study dissects the genetic architecture of oil biosynthesis in maize kernels. Nature Genet., 45 (1), 43–50.
]Search in Google Scholar
[
Li, Q., Zheng, Q., Shen, W., Cram, D., Fowler, D. B., Wei, Y., Zou, J. (2015). Understanding the biochemical basis of temperature-induced lipid pathway adjustments in plants. The Plant Cell, 27 (1), 86–103.10.1105/tpc.114.134338433058525564555
]Search in Google Scholar
[
Likhovid, P. V. (2015). Sweet maize Cultivation Technology Under the Irrigated Conditions (scientific-production edition) [Лиховид, П. В. Техно¬логия выращивания кукурузы сахарной на поливных землях (научно-производственное издание)], Diamond trading tour, Warszawa. 52 pp. (in Russian).
]Search in Google Scholar
[
Long, W., Hu, M., Gao, J., Chen, S., Zhang, J., Cheng, L., Pu, H. (2018). Identification and functional analysis of two new mutant BnFAD2 alleles that confer elevated oleic acid content in rapeseed. Front. Genet., 9, 399.10.3389/fgene.2018.00399615838830294343
]Search in Google Scholar
[
Menard, G. N., Moreno, J. M., Bryant, F. M., Munoz-Azcarate, O., Kelly, A. A., Hassani-Pak, K., Kurup, S., Eastmond, P. J. (2017). Genome wide analysis of fatty acid desaturation and its response to temperature. Plant Physiol., 173 (3), 1594–1605.10.1104/pp.16.01907533867928108698
]Search in Google Scholar
[
Motto, M., Balconi, C., Hartings, H., Rossi, V. (2010). Gene discovery for improvement of kernel quality-related traits in maize. Genetica, 42 (1), 23–56.10.2298/GENSR1001023M
]Search in Google Scholar
[
Murphy, D. J. (2014). Using modern plant breeding to improve the nutritional and technological qualities of oil crops. Oils. Fats Crops Lipids, 21 (6), D 607.10.1051/ocl/2014038
]Search in Google Scholar
[
Parcell, J., Kojima, Y., Roach, A., Cain, W. (2018). Global edible vegetable oil market trends. Biomed. J. Sci. Tech. Res., 2 (1), 2282–2291.
]Search in Google Scholar
[
Pelly, J. (2012). Fatty acid and triglyceride metabolism. In: Pelly, J. Elsevier’s Integrated Review Biochemistry.2nd edn. Elsevier, Philadelphia, PA, pp. 81–88.10.1016/B978-0-323-07446-9.00010-6
]Search in Google Scholar
[
Rajendran, A., Chaudhary, D., Mahajan, V. (2017). maize oil research and improvement: Review. J. Crop Weed, 13 (2), 247–252.
]Search in Google Scholar
[
Rolletschek, H., Borisjuk, L. Sanchez-Garcia, A., Gotor, C., Romero, L. C., Martinez-Rivas, J. M., Mancha, M. (2007). Temperature-dependent endogenous oxygen concentration regulates microsomal oleate desaturase in developing sunflower seeds. J. Exp. Bot., 58 (12), 3171–3181.10.1093/jxb/erm15417905732
]Search in Google Scholar
[
Shulte, L., Ballard, T., Samarakoon, T., Yao, L., Valdani, L., Staggenborg, P., Rezac, M. (2013). Increased growing temperature reduces content of polyunsaturated fatty acids in four oilseed crops. Industr. Crops Products, 51 (2), 212–219.10.1016/j.indcrop.2013.08.075
]Search in Google Scholar
[
Vanhercke, T., Wood, C. C., Stymme, S., Singh, S. P., Green, A. G. (2013). Metabolic engineering of plant oils and waxes for use as industrial feedstocks. Plant Biotechnol. J., 11 (2), 197–210.10.1111/pbi.1202323190163
]Search in Google Scholar
[
Vukolov, E. A. (2008). Foundations of Statistical Analysis. Workshop on Statistical Methods and Operations Research Using the Statistica and Exel Packages: Tutorial [Вуколов Э. А. Основы статистического анализа. Практикум по статистическим методам и исследованию операций с помощью пакетов Statistica и Excel: учебное пособие]. 2nd edn. Forum, Moskow, 464 pp. (in Russian).
]Search in Google Scholar
[
Wassom, J. J., Mikkilineni, V., Bohn, M. O., Rocheford, T. R. (2008). QTL for fatty acid composition of maize kernel oil in Illinois High Oil × B73 backcross-derived lines. Crop Sci., 48 (1), 69–78.10.2135/cropsci2007.04.0208
]Search in Google Scholar
[
Wilson, R. F. (2012). The role of genomics and biotechnology in achieving global food security for high-oleic vegetable oil. J. Oleo. Sci., 61 (7), 357–367.10.5650/jos.61.35722790166
]Search in Google Scholar
[
Yang, X., Guo, Y., Yan, J., Zhang, J., Song, T., Rocheford, T., Li, J.-S. (2010). Major and minor QTL and epistasis contribute to fatty acid compositions and oil concentration in high-oil maize. Theor. Appl. Genet. 120 (3), 665–678.10.1007/s00122-009-1184-119856173
]Search in Google Scholar
[
Yara-Varon, E., Li, Y., Barcells, M., Canela-Garayoa, R., Fabiano-Tixier, A.-S., Chemat, F. (2017). Vegetable oils as alternative solvents for green oleo — extraction, purification and formulation of food and natural products. Molecules, 22, 1474.10.3390/molecules22091474615161728872605
]Search in Google Scholar
[
Zhao, X., Wei, J., He, L., Zhang, Y., Zhao, Y., Xu, X., Wei, Y., Ge, S., Ding, D., Liu, M., Gao, S., Xu, J. (2019). Identification of fatty acid desaturases in maize and their differential responses to low and high temperature. Genes, 10, 445.10.3390/genes10060445662721831210171
]Search in Google Scholar
