期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
A Point Mutation in an F-Box Domain-Containing Protein Is Responsible for Brown Hull Phenotype in Rice 被引量:1
1
作者 XU Xia ZHANG Xiao-bo +8 位作者 SHI Yong-feng WANG Hui-mei FENG Bao-hua LI Xiao-hong HUANG Qi-na SONG Li-xin GUO Dan HE Yan WU Jian-li 《Rice science》 SCIE CSCD 2016年第1期1-8,共8页
The accumulation of pigments affects the color of rice hulls while only limited information is known about its underlying mechanisms. In the present study, a rice brown hull 6(bh6) mutant was isolated from an ethane... The accumulation of pigments affects the color of rice hulls while only limited information is known about its underlying mechanisms. In the present study, a rice brown hull 6(bh6) mutant was isolated from an ethane methyl sulfonate(EMS)-induced IR64 mutant bank. Brown pigments started to accumulate in bh6 rice hulls after heading and reached a higher level in mature seeds. Some major agronomic traits including panicle length and 1000-grain weight in bh6 were significantly lower than those in its corresponding wild type IR64, while other agronomic traits such as plant height, growth duration and seed-setting rate were largely similar between the two genotypes. The analysis of pigment content showed that the contents of total flavonoids and anthocyanin in bh6 hulls were significantly higher than those in IR64 hulls. Our results showed that the brown hull phenotype in bh6 was controlled by a single recessive gene which locates on the long arm of chromosome 9. Sequencing analysis detected a single base substitution(G/A) at position 1013 of the candidate gene(LOC_Os09g12150) encoding an F-box domain-containing protein(FBX310). Functional complementation experiment using the wild type allele can rescue the phenotype in bh6. Thus, we named this mutated gene as Os FBX310^(bh6), an allele of OsFBX310 functioning as an inhibitor of brown hull. The isolation of Os FBX310^(bh6) and its wild type allele can provide useful experimental materials and will facilitate the studies on revealing the mechanisms of flavonoid metabolism in monocot plants. 展开更多
关键词 Oryza sativa L brown hull mutant OsFBX310 gene flavonoid metabolism
下载PDF
水稻褐色颖壳新等位基因OsFBX310^(bh6)的克隆鉴定 被引量:3
2
作者 徐霞 张晓波 +6 位作者 施勇烽 王惠梅 黄奇娜 奉保华 李小红 郭丹 吴建利 《中国水稻科学》 CAS CSCD 北大核心 2015年第4期335-342,共8页
通过EMS诱变获得遗传稳定的水稻褐色颖壳突变体(brown hull 6,简称bh6)。与野生型IR64相比,在自然条件下突变体的颖壳颜色自抽穗期开始逐渐加深直至蜡熟期颖壳呈深褐色,除千粒重和穗长显著降低外,其他农艺性状(株高、每株有效穗数、每... 通过EMS诱变获得遗传稳定的水稻褐色颖壳突变体(brown hull 6,简称bh6)。与野生型IR64相比,在自然条件下突变体的颖壳颜色自抽穗期开始逐渐加深直至蜡熟期颖壳呈深褐色,除千粒重和穗长显著降低外,其他农艺性状(株高、每株有效穗数、每穗实粒数、结实率)未发生显著改变。遗传分析表明,该褐色颖壳性状受一对隐性核基因控制。构建突变体bh6与正常色颖壳水稻CPSLO17的F2分离群体作为基因定位群体,将该基因精细定位在第9染色体长臂上106kb的区段内。序列分析发现,突变体中F-box蛋白基因OsFBX310(LOC_Os09g12150)编码区第1013位碱基由G突变为A,致使其所编码的蛋白序列第338位的甘氨酸(Gly)突变成天冬氨酸(Asp)。通过构建OsFBX310功能互补载体进行转化试验,结果表明,突变体转基因植株的谷壳颜色恢复为正常颜色。该基因是已报道的水稻OsFBX310基因的新等位基因,命名为OsFBX310bh6。OsFBX310bh6及其野生型等位基因的克隆对深入研究338位甘氨酸/天冬氨酸在类黄酮代谢过程中的作用,以及丰富水稻特异种质资源具有积极意义。 展开更多
关键词 水稻 褐色颖壳突变体 分子标记 OsFBX310 类黄酮代谢
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部