| ·常规信息 最近更新:2021年3月13日 14:23:00 | |||||||||||||
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| 基因(座)名称 | 褐飞虱抗性基因 Brown planthopper resistance-26 | ||||||||||||
| 基因符号 | BPH1; Bph2; BPH7; BPH9; BPH10; BPH18; BPH21; Bph26 | ||||||||||||
| 所在染色体 | 12 (已克隆) | ||||||||||||
Bph26/Bph2(Os12g0559400+Os12g0559600, Tamura et al. 2014)... 【突变体表型】【定位与克隆】BPH18编码一个CC-NBS-NBS-LRR蛋白,通过精细定位将BPH18定位在27-kb区域内,Os12g37290和Os12g37280一起构成了BPH18基因,Os12g37290编码NBS结构域,Os12g37280编码LRR结构域(Ji et al. 2016)。 BPH9与BPH1、BPH2、BPH7、BPH10、BPH18、BPH21和BPH26等位,这8个位点为复等位基因的关系,可分为4个等位基因型。等位型1是在野生稻中最早出现的抗虫等位型,也是第一个应用于现代抗虫育种的等位型,随后是等位型2。等位型7和等位型9则是新近发掘的等位型,对三种生物型的褐飞虱均表现为抗性,在今后的水稻抗虫育种中具有重要利用价值(Zhao et al. 2016)。 BPH26编码一个CC-NBS-LRR蛋白,与Bph2是同一个基因,BPH18与Bph26等位。 Bph9位于第12染色体上的两个SSR标记RM463和RM5341之间,分别与之相距6.8cM和9.7cM(Su et al. 2006)。 【时空表达谱】BPH18主要在叶鞘的维管束表达,这是褐飞虱害虫的取食位点,在叶片和根表达较弱(Ji et al. 2016)。 【亚细胞定位】细胞的内膜,包括内质网、高尔基体、高尔基体反面网络和液泡前体(Ji et al. 2016)。 【生物学功能】BPH26能够抑制褐飞虱对韧皮部筛管的吸食(Tamura et al. 2014)。 BPH18和BPH26是功能不同的等位基因,BPH18同时参与排趋性和抗生性作用,赋予水稻对褐飞虱的抗性(Ji et al. 2016)。 【相关登录号】
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| ·ONTOLOGY及相关基因 | |
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| 表型特征 | 褐飞虱抗性(TO:0000424) |
| 生物进程 | 对昆虫的防卫反应(GO:0002213) |
| ·参考文献 |
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| 1. Hyeonso Ji;Sung-Ryul Kim;Yul-Ho Kim;Jung-Pil Suh;Hyang-Mi Park;Nese Sreenivasulu;Gopal Misra;Suk-Man Kim;Sherry Lou Hechanova;Hakbum Kim;Gang-Seob Lee;Ung-Han Yoon;Tae-Ho Kim;Hyemin Lim;Suk-Chul Suh;Jungil Yang;Gynheung An;Kshirod K. Jena Map-based Cloning and Characterization of the BPH18 Gene from Wild Rice Conferring Resistance to Brown Planthopper (BPH) Insect Pest Scientific Reports, 2016, 6: 34376 |
| 2. Yan Zhao;Jin Huang;Zhizheng Wang;Shengli Jing;Yang Wang;Yidan Ouyang;Baodong Cai;Xiu-Fang Xin;Xin Liu;Chunxiao Zhang;Yufang Pan;Rui Ma;Qiaofeng Li;Weihua Jiang;Ya Zeng;Xinxin Shangguan;Huiying Wang;Bo Du;Lili Zhu;Xun Xu;Yu-Qi Feng;Sheng Yang He;Rongzhi Chen;Qifa Zhang;Guangcun He Allelic diversity in an NLR gene BPH9 enables rice to combat planthopper variation Proceedings of the National Academy of Sciences of the United States of America, 2016, 113(45): 12850-12855 |
| 3. Yasumori Tamura;Makoto Hattori;Hirofumi Yoshioka;Miki Yoshioka;Akira Takahashi;Jianzhong Wu;Naoki Sentoku;Hideshi Yasui Map-based Cloning and Characterization of a Brown Planthopper Resistance Gene BPH26 from Oryza sativa L. ssp. indica Cultivar ADR52 Scientific Reports, 2014, 4: 5872 |
| 4. Asanori Yara;Cong Nguyen Phi;Masaya Matsumura;Atsushi Yoshimura;Hideshi Yasui Development of near-isogenic lines for BPH25(t) and BPH26(t), which confer resistance to the brown planthopper, Nilaparvata lugens (Stål.) in indica rice ‘ADR52’ Breeding Science, 2010, 60(5): 639-647 |
| 5. SU Chang-Chao;ZHAI Hu-Qu;WANG Chun-Ming;SUN Li-Hong;WAN Jian-Min SSR Mapping of Brown Planthopper Resistance Gene Bph9 in Kaharamana, an Indica Rice (Oryza sativa L.) Acta Genetica Sinica, 2006, 33(3): 262-268 |
| 6. K. MURATA, M. FUJIWARA, H. MURAI, S. TAKUMI, N. MORI and C. NAKAMURA Bph9, a dominant brown planthopper resistance gene, is located on the long arm of rice chromosome 12 Rice Genetics Newsletters, 2000, 17(0): 84-86 |
| 7. Hiroshi Nemoto, Ryoichi Ikeda and Chukichi Kaneda New genes for resistance to brown planthopper, Nilaparvata lugens Stål, in rice Japanese Journal of Breeding, 1989, 39(0): 23-28 |
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