농업과학연구 (Korean Journal of Agricultural Science)

  • 제45권2호
  • /
  • Pages.248-257
  • /
  • 2018
  • /
  • 2466-2402(pISSN)
  • /
  • 2466-2410(eISSN)
충남대학교 농업과학연구소 (Institute of Agricultural Science, CNU)
권호 표지
DOI QR코드

DOI QR Code

Safety assessment of the AtCYP78A7 protein expressed in genetically modified rice tolerant to abiotic stress

  • 투고 : 2018.03.13
  • 심사 : 2018.05.11
  • 발행 : 2018.06.30
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

Overexpression of AtCYP78A7, a gene encoding a cytochrome P450 protein, has been reported to improve tolerance to drought stress in genetically modified (GM) rice (Oryza sativa L.). The aim of this study was to evaluate the potential allergenicity and acute oral toxicity of the AtCYP78A7 protein expressed in GM rice. Bioinformatics analysis of the amino acid sequence of AtCYP78A7 did not identify any similarities with any known allergens or toxins. It showed that no known allergen had more than a 35% amino acid sequence homology with the AtCYP78A7 protein over an 80 amino acid window or more than 8 consecutive identical amino acids. The gene encoding the AtCYP78A7 protein was cloned in the pGEX-4T-1 vector and expressed in E. coli. Then, the AtCYP78A7 protein was purified and analyzed for acute oral toxicity. The AtCYP78A7 protein was fed at a dose of 2,000 mg/kg body weight in mice, and the changes in mortalities, clinical findings, and body weight were monitored for 14 days after the dosing. Necropsy was carried out on day 14. The protein did not cause any adverse effects when it was orally administered to mice at 2000 mg/kg body weight. These results indicate that the AtCYP78A7 protein expressed in GM rice would not be a potential allergen or toxin.

키워드

참고문헌

  1. Codex Alimentarious Commission. 2009. Foods derived from modern biotechnology. 2nd ed. WHO, FAO, Rome, Italy.
  2. Delaney B, Astwood JD, Cunny H, Conn RE, Herouet-Guicheney C, MacIntosh S, Meyer LS, Privalle L, Gao Y, Mattsson J, Levine M, ILSI International Food Biotechnology Committee Task Force on Protein Safety. 2008. Evaluation of protein safety in the context of agricultural biotechnology. Food and Chemical Toxicology 46:S71-S97.
  3. FAO/WHO. 2001. Evaluation of allergenicity of genetically modified foods. Food and Agriculture Organization of the United Nations (FAO), Rome, Italy.
  4. Im JS, Cho KS, Cho JH, Park YE, Cheun CG, Kim HJ, Cho HM, Lee JN, Jin YI, Byun MO, Kim DY, Kim MJ. 2012. Growth, quality, and yield characteristics of transgenic potato (Solanum tuberosum L.) overexpressing StMyb1R-1 under water deficit. Journal of Plant Biotechnology 39:154-162. https://doi.org/10.5010/JPB.2012.39.3.154
  5. ISAAA. 2016. Global status of commercialized biotech/GM crops: 2016. ISAAA Brief No. 52. ISAAA, Ithaca, NY, USA.
  6. Jang IC, Oh SJ, Seo JS, Choi WB, Song SI, Kim CH, Kim YS, Seo HS, Choi YD, Nahm BH, Kim JK. 2003. Expression of a bifunctional fusion of the Escherichia coli genes for trehalose-6-phosphate synthase and trehalose-6-phosphate phosphatase in transgenic rice plants increases trehalose accumulation and abiotic stress tolerance without stunting growth. Plant Physiology 131:516-524. https://doi.org/10.1104/pp.007237
  7. Jeong EJ, Song JY, Yu DA, Kim MS, Jung YJ, Kang KK, Park SC, Cho YG. 2017. Overexpression of an oligopeptide tansporter gene enhances heat tolerance in transgenic rice. Journal of Plant Biotechnology 44:296-302. https://doi.org/10.5010/JPB.2017.44.3.296
  8. Jung C, Seo JS, Han SW, Koo YJ, Kim CH, Song SI, Nahm BH, Choi YD, Cheong JJ. 2008. Overexpression of AtMYB44 enhances stomatal closure to confer abiotic stress tolerance in transgenic Arabidopsis. Plant Physiology 146:623-635.
  9. Kim HB, Choi SB. 2012. Cytochrome P450 gene for increasing seed size or water stress resistance of plant. US Patent 8153862 B2.
  10. Kim HJ, Lee SM, Kim JK, Cho HS, Yeo Y. 2014. Allergenicity assessment of disease resistant GM rice. Journal of the Korean Society of International Agriculture 26:35-40. [in Korean] https://doi.org/10.12719/KSIA.2014.26.1.35
  11. Ko EM, Kim DY, Kim HJ, Chung YS, Kim CG. 2016. Assessing weediness of herbicide tolerant genetically modified soybean. Korean Journal of Agricultural Science 43:560-566. [in Korean]
  12. Ladics GS. 2008. Current codex guidelines for assessment of potential protein allergenicity. Food and Chemical Toxicology 46:S20-S23. https://doi.org/10.1016/j.fct.2008.07.021
  13. Lee B. 2017. A study on the establishment of isolation distances for environmental release of biotech crops. Korean Journal of Agricultural Science 44:188-195. [in Korean]
  14. Lee S, Jeong K, Jang KM, Kim SG, Park JH, Kim S. 2017. Single-dose oral toxicity study of ${\beta}$-glucosidase 1 (AtBG1) protein introduced into genetically modified rapeseed (Brassica napus L.). Journal of Life Science 27:194-201. [in Korean] https://doi.org/10.5352/JLS.2017.27.2.194
  15. Lee S, Seo D, Jeong M, Sung H, Kim J, Kim H, Yeo Y, Cho H. 2012. Safety evaluation of the phosphinothricin acetyltransferase proteins and herbicide resistant potato. Journal of the Korean Society of International Agriculture 24:598-608. [in Korean] https://doi.org/10.12719/KSIA.2012.24.5.598
  16. Lee S, Park S, Yeo Y, Cho H, Kwon S, Oh S, Kim J, Park SK. 2015. The allergy assessments of insect-resistant Agb0101 rice. Journal of the Korean Society of International Agriculture 27:69-75. [in Korean]
  17. Lu Y, Xu W, Kang A, Luo Y, Guo F, Yang R, Zhang J, Huang K. 2007. Assessment of hygromycin B phosphotransferase protein derived from genetically modified plants. Journal of Food Science 72:M228-M232. https://doi.org/10.1111/j.1750-3841.2007.00437.x
  18. Matsuda T, Nomura R, Sugiyama M, Nakamura R. 1991. Immunochemical studies on rice allergenic proteins. Agricultural and Biological Chemistry 55:509-513.
  19. Nam KH, Nam KJ, An JH, Jeong SC, Park KW, Kim HB, Kim CG. 2013. Comparative analysis of key nutrient composition between drought-tolerant transgenic rice and its non-transgenic counterpart. Food Science and Biotechnology 252:1351-1357.
  20. Nam KH, Kim DY, Shin HJ, Nam KJ, An JH, Pack IS, Park JH, Jeong SC, Kim HB, Kim CG. 2014. Drought stress-induced compositional changes in tolerant transgenic rice and its wild type. Food Chemsitry 153:145-150. https://doi.org/10.1016/j.foodchem.2013.12.051
  21. Nam KH, Shin HJ, Pack IS, Park JH, Kim HB, Kim CG. 2015. Growth stage-based metabolite profiling of drought-tolerant transgenic rice under well-watered and deficit conditions. Plant Omics Journal 8:587-594.
  22. Nam KH, Shin HJ, Pack IS, Park JH, Kim HB, Kim CG. 2016. Metabolomic changes in grains of well-watered and drought-stressed transgenic rice. Journal of Science of Food and Agriculture 96:807-814. https://doi.org/10.1002/jsfa.7152
  23. Usui Y, Nakase M, Hotta H, Urisu A, Aoki N, Kitajima K, Matsuda T. 2001. A 33-kDa allergen from rice (Oryza sativa L. japonica): cDNA cloning, expression, and identification as a novel glyxalase I. The Journal of Biological Chemistry 276:11376-11381. https://doi.org/10.1074/jbc.M010337200
  24. Xu J, Wang XY, Guo WZ. 2015. The cytochrome P450 superfamily: Key players in plant development and defense. Journal of Integrative Agriculture 14:1673-1686. https://doi.org/10.1016/S2095-3119(14)60980-1