Allergen composition analysis and allergenicity assessment of Chinese peanut cultivars

文献类型: 外文期刊

第一作者: Zhou, Ningling

作者: Zhou, Ningling;Li, Xin;Yang, Anshu;Tong, Ping;Chen, Hongbing;Wu, Zhihua;Zhou, Ningling;Yang, Anshu;Chen, Hongbing;Zhou, Ningling;Li, Xin;Xiong, Faqian;Tang, Ronghua

作者机构:

关键词: Peanut;Allergen composition;Allergenicity;IgE binding capacity;Oral sensitization

期刊名称:FOOD CHEMISTRY ( 影响因子:7.514; 五年影响因子:7.516 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Peanut (Arachis hypogaea) is among the eight major food allergens in the world. Several attempts have been made to decrease or eliminate the allergenicity of peanut. Systemic screening of thousands of peanut cultivars may identify peanut with low allergenicity. In this study, the allergen compositions of 53 Chinese peanut cultivars were characterized, and their allergenicity to sera IgE of Chinese patients and in a mouse model was assessed. Contents of total protein and allergens were quantified by SDS-PAGE and densitometry analysis on gel. Although the contents of allergens broadly varied among cultivars, they were related to one another. The IgE binding capacity of cultivars was tested by ELISA, and their allergenicity was further evaluated in a mouse model by oral sensitization. Results showed that the allergenicity of peanut was affected by allergen composition rather than a single allergen. Peanut cultivars with low allergenicity may contain more Ara h 3/4 (24 kDa), Ara h 2 and less Ara h 3/4 (43, 38, and 36 kDa), Ara h 6. Screening based on allergen composition would facilitate the identification of low-allergenic peanut. (C) 2015 Elsevier Ltd. All rights reserved.

分类号: TS2`TS201.2

  • 相关文献

[1]Transgenic Expression and Identification of Recombinant Human Proinsulin in Peanut. Zheng Ling,Wang Yu,Wan Shu-Bo,Peng Zhen-Ying,Bi Yu-Ping,Zheng Ling,Wang Yu,Bian Fei,Wan Shu-Bo,Peng Zhen-Ying,Zheng Ling,Wang Yu,Bian Fei,Wan Shu-Bo,Peng Zhen-Ying,Bi Yu-Ping,Jiao Qi-Qing,Qu Shu-Jie,Wan Shu-Bo,Bi Yu-Ping. 2016

[2]Transcriptome Analysis of Calcium and Hormone-Related Gene Expressions during Different Stages of Peanut Pod Development. Li, Yan,Meng, Jingjing,Yang, Sha,Guo, Feng,Zhang, Jialei,Geng, Yun,Cui, Li,Li, Xinguo,Wan, Shubo. 2017

[3]Calcium contributes to photoprotection and repair of photosystem II in peanut leaves during heat and high irradiance. Yang, Sha,Wang, Fang,Guo, Feng,Meng, Jing-Jing,Li, Xin-Guo,Yang, Sha,Guo, Feng,Meng, Jing-Jing,Li, Xin-Guo,Wan, Shu-Bo,Wang, Fang. 2015

[4]Cloning of Acyl-ACP thioesterase FatA from Arachis hypogaea L. and its expression in Escherichia coli. Chen, G.,Peng, Z. Y.,Xuan, N.,Zhang, Y.,Bi, Y. P.,Chen, G.. 2012

[5]Genome-Wide Identification and Comparative Analysis of Cytosine-5 DNA Methyltransferase and Demethylase Families in Wild and Cultivated Peanut. Wang, Pengfei,Gao, Chao,Bian, Xiaotong,Zhao, Shuzhen,Zhao, Chuanzhi,Xia, Han,Song, Hui,Hou, Lei,Wan, Shubo,Wang, Xingjun. 2016

[6]Peanut (Arachis hypogaea L.) Omics and Biotechnology in China. Wang, Xing-Jun,Xia, Han,Wan, Shu-Bo,Zhao, Chuan-Zhi,Li, Ai-Qin,Wang, Xing-Jun,Xia, Han,Wan, Shu-Bo,Zhao, Chuan-Zhi,Li, Ai-Qin,Wang, Xing-Jun,Xia, Han,Wan, Shu-Bo,Zhao, Chuan-Zhi,Li, Ai-Qin,Liu, Shuan-Tao. 2011

[7]Identification of Metabolites and Transcripts Involved in Salt Stress and Recovery in Peanut. Cui, Feng,Liu, Yiyang,Han, Yan,Wan, Shubo,Li, Guowei,Cui, Feng,Liu, Yiyang,Han, Yan,Wan, Shubo,Li, Guowei,Sui, Na,Liu, Shanshan,Duan, Guangyou. 2018

[8]Small RNA profiling and degradome analysis reveal regulation of microRNA in peanut embryogenesis and early pod development. Gao, Chao,Wang, Pengfei,Zhao, Shuzhen,Zhao, Chuanzhi,Xia, Han,Hou, Lei,Zhang, Ye,Li, Changsheng,Wang, Xingjun,Wang, Xingjun,Ju, Zheng. 2017

[9]Genome-Wide Dissection of the Heat Shock Transcription Factor Family Genes in Arachis. Wang, Pengfei,Song, Hui,Li, Changsheng,Li, Pengcheng,Li, Aiqin,Guan, Hongshan,Hou, Lei,Wang, Xingjun,Wang, Xingjun. 2017

[10]Identification and expression dynamics of three WUSCHEL related homeobox 13 (WOX13) genes in peanut. Wang, Pengfei,Li, Changsheng,Li, Cui,Zhao, Chuanzhi,Xia, Han,Zhao, Shuzhen,Hou, Lei,Gao, Chao,Wan, Shubo,Wang, Xingjun,Wang, Pengfei,Li, Changsheng,Li, Cui,Zhao, Chuanzhi,Xia, Han,Zhao, Shuzhen,Hou, Lei,Gao, Chao,Wan, Shubo,Wang, Xingjun.

[11]Comparative proteomics of peanut gynophore development under dark and mechanical stimulation. Sun, Yong,Wang, Qingguo,Li, Zhen,Hou, Lei,Liu, Wei,Dai, Shaojun,Sun, Yong.

[12]Transcriptome and Differential Expression Profiling Analysis of the Mechanism of Ca2+ Regulation in Peanut (Arachis hypogaea) Pod Development. Yang, Sha,Zhang, Jialei,Geng, Yun,Guo, Feng,Meng, Jingjing,Li, Xinguo,Li, Lin,Wang, Jianguo,Sui, Na,Wan, Shubo. 2017

[13]Identification of chilling-responsive transcripts in peanut (Arachis hypogaea L.). Wang, Chuan Tang,Wang, Xiu Zhen,Chi, Xiao Yuan,Wu, Qi,Chen, Dian Xu,Tang, Yue Yi,Yang, Guan Pin,Feng, Tong,Gao, Hua Yuan,Xu, Ya Long. 2011

[14]Physiological fundamentals of the AnM cultivation technique in peanut production: Leaf photosynthetic hysteresis is reduced by exposing hypocotyls. Qin, Feifei,Takano, Tetsuo,Qin, Feifei,Xu, Hui-lian,Qin, Feifei. 2012

[15]Functional Genomic Analysis of Aspergillus flavus Interacting with Resistant and Susceptible Peanut. Wang, Houmiao,Lei, Yong,Yan, Liying,Wan, Liyun,Ren, Xiaoping,Chen, Silong,Jiang, Huifang,Liao, Boshou,Wang, Houmiao,Lei, Yong,Yan, Liying,Wan, Liyun,Ren, Xiaoping,Chen, Silong,Jiang, Huifang,Liao, Boshou,Dai, Xiaofeng,Guo, Wei. 2016

[16]The effect of low water content on seed longevity. Hu, CL,Zhang, YL,Tao, M,Hu, XR,Jiang, CY. 1998

[17]Identification and Evaluation of Single-Nucleotide Polymorphisms in Allotetraploid Peanut (Arachis hypogaea L.) Based on Amplicon Sequencing Combined with High Resolution Melting (HRM) Analysis. Hong, Yanbin,Liu, Ying,Chen, Xiaoping,Liang, Xuanqiang,Hong, Yanbin,Huang, Shangzhi,Pandey, Manish K.,Varshney, Rajeev K.,Liu, Hong,Varshney, Rajeev K.,Varshney, Rajeev K.. 2015

[18]Identification of QTLs associated with oil content and mapping FAD2 genes and their relative contribution to oil quality in peanut (Arachis hypogaea L.). Pandey, Manish K.,Qiao, Lixian,Feng, Suping,Khera, Pawan,Wang, Hui,Guo, Baozhu,Pandey, Manish K.,Khera, Pawan,Varshney, Rajeev K.,Pandey, Manish K.,Qiao, Lixian,Feng, Suping,Khera, Pawan,Wang, Hui,Culbreath, Albert K.,Guo, Baozhu,Wang, Ming Li,Tonnis, Brandon,Barkley, Noelle A.,Qiao, Lixian,Feng, Suping,Wang, Hui,Wang, Jianping,Holbrook, C. Corley. 2014

[19]Genetic analysis of yield in peanut (Arachis hypogaea L.) using mixed model of major gene plus polygene. Zhang, Xinyou,Zhu, Shuijin,Zhang, Xinyou,Han, Suoyi,Tang, Fengshou,Xu, Jing,Liu, Hua,Yan, Mei,Dong, Wenzhao,Huang, Bingyan. 2011

[20]Nitric oxide suppresses aluminum-induced programmed cell death in peanut (Arachis hypoganea L.) root tips by improving mitochondrial physiological properties. Huang, Wenjing,Oo, Thet Lwin,Gu, Minghua,Zhan, Jie,Wang, Aiqin,He, Long-Fei,He, Huyi,He, Long-Fei. 2018

作者其他论文 更多>>

微信小程序