[1]Tanaka K,Sugimoto T,Ogawa,et al. Isolation and characterization of two types of protein bodies in the rice endosperm[J]. Agricultural and Biological Chemistry,1980,44:1633-1639.
[2]Kubota M,Saito Y,Masumura T,et al. In vivo digestibility of rice prolamin/protein body-Ⅰ particals decreased by cooking[J]. Journal of Nutritional Science and Vitaminology,2014,60(4):300-304.
[3]Lee H J,Jo Y M,Lee J Y,et al. Lack of globulin synthesis during seed development alters accumulation of seed storage proteins in rice[J]. International Journal of Molecular Science,2015,16(7):14717-14736.
[4]Nakase M,Izaki K,Hidaka I. Reduction of rice ptroeins based on their solubility and evaluation of the low-protein rice products[J]. Bulletin Minamikyushu University,2012,42A:15-20.
[5]Usui Y,Nakase M,Hotta H,et al. A 33-kDa allergen from rice (Oryza sativa L. japonica). cDNA cloning,expression,and identification as a novel glyoxalase Ⅰ[J]. Journal of Biological Chemistry,2001,276:11376-11381.
[6]Urisu A,Yamada K,Masuda S,et al. 16-kilodalton rice protein is one of the major allergens in rice grain extract and responsible for cross-allergenicity between cereal grains in the Poaceae family[J]. International archives of allergy and immunology,1991,96:244-252.
[7]Enrique E,Ahrazem O,Bartra J,et al. Lipid transfer protein is involved in rhinoconjunctivitis and asthma produced by rice inhalation[J]. Journal of Allergy and Clinical Immunology,2005,116:926-928.
[8]邓力华,邓晓湘,魏岁军,等. 抗虫抗除草剂转基因水稻B1C893的获得与鉴定[J]. 杂交水稻,2014,29(1):67-71.
[9]熊燕,陈大明,王斌,等. 转基因农作物商业化种植情况与挑战[J]. 生物产业技术,2009,2:10-16.
[10]谭远军,高瞻,陈丽丽. 转基因作物与安全性[J]. 黑龙江农业科学,2013(1):101-103.
[11]Satoh R,Nakamura R,Komatsu A,et al. Proteomic analsis of known and candidate rice allergens between non-transgenic and transgenic plants[J]. Regulatory Toxicology and Pharmacology,2011,50(3):437-444.
[12]王宁. 基于文献的我国转基因水稻研究发展态势分析[J]. 北方水稻,2014,44(6):5-6,11.
[13]Satoh R,Nakamura R,Komatsu A,et al. Proteomic analysis of known and candidate rice allergens between non-transgenic and transgenic plants[J]. Regulatory Toxicology and Pharmacology,2011,59:437-444.
[14]Takagi H,Saito S,Yang L,et al. Oral immunotherapy against a pollen allergy using a seed-based peptide vaccine[J]. Plant Biotechnology Journal,2005,3:521-533.
[15]Wakasa Y,Takagi H,Watanabe N,et al. Concentrated protein body product derived from rice endosperm as an oral tolerogen for allergen-specific immunotherapy-a new mucosal vaccine formulation against Japanese cedar pollen allergy[J]. PLoS One,2015,10(3):e0120209.
[16]Komatsu S,Hirano H. Rice seedglobulin:a protein similar to wheat seed glutelin[J]. Phycytochemistry,1992,31:3455-3459.
[17]Pan S J,Reeck G R.Islation and characterization of rice α-globulin[J]. Cereal chemistry,1988,65:316-319.
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