江苏省农业科学院机构知识库

DISTRIBUTION OF SEVEN GRAIN GENES AND EVALUATION OF THEIR GENETIC EFFECTS ON GRAIN TRAITS

收藏
分享
全文链接

文献类型：外文期刊

作者： Zhang, Yadong ¹ ; Zhao, Qingyong ¹ ; Zhao, Chunfang ¹ ; Chen, Tao ¹ ; Zhu, Zhen ¹ ; Zhou, Lihui ¹ ; Yao, Shu ¹ ; Zhao, Li ¹ ;

作者机构： 1.Jiangsu Acad Agr Sci, Jiangsu High Qual Rice R&D Ctr, Prov Key Lab Agrobiol, Inst Food Crops, Nanjing 210014, Jiangsu, Peoples R China

2.Jiangsu Acad Agr Sci, Jiangsu High Qual Rice R&D Ctr, Prov Key Lab Agrob

关键词： Distribution;Genetic effect;QTL;Japonica

期刊名称：PAKISTAN JOURNAL OF BOTANY （影响因子：0.972；五年影响因子：0.988 ）

ISSN： 0556-3321

年卷期： 2016 年 48 卷 3 期

页码：

收录情况： SCI

摘要： Grain size is one of the most important factors determining rice yield. Several major QTLs for grain size control have been molecular characterized, and their roles in the regulation of grain size or weight have been explored but still remained obscure. In this study, we systematically examined the distributions of GW2, GS3, qSW5, qGL3, GS5, GW8, and TGW6 in 240 RIL of TD70 and Kasalath, compared the phenotypic differences between functional ( additive) and non-functional alleles of the seven genes by monogenic lines and analyzed the interaction effect of gs3, gw2, and qgl3. The results showed that the 7 genes could be randomly combined, and an individual gene has its specific roles in grain length, grain width, and grain thickness, the seven functional genes regulating grain weight follows the order as qgl3 > gw2> gs3> GS5> qsw5> GW8> TGW6, and the combination effect among gs3, gw2, and qgl3 were revealed. These findings provide novel insight into grain size regulation in rice and are likely to be useful for marker assisted breeding in rice grain size.

相关文献

[1]小麦赤霉病抗性分子标记研究. 张旭,任丽娟,周淼平,高力,沈晓蓉,向阳海,马鸿翔,陆维忠. 2005

[2]CFD Simulation of Airflow 3D Distribution for Air-assisted Orchard Sprayer. Xiaolan Lv,Youhong Chang,Meina Zhang,Zongchun Bai,Wei Qiu. 2015

[3]Selective sweep with significant positive selection serves as the driving force for the differentiation of japonica and indica rice cultivars. Yuan, Yang,Yuan, Yang,Zeng, Shuiyun,Gu, Longjiang,Si, Weina,Zhang, Xiaohui,Tian, Dacheng,Yang, Sihai,Wang, Long,Zhang, Qijun. 2017

[4]The Comparison in Tissue Culture Ability of Mature Embryo in Different Cultivars of Rice. Yan Li-na,Li Xia,Wu Dan,Yan Li-na. 2010

[5]Effects of male sterile cytoplasm on yield and agronomic characters in Japonica hybrid rice, Oryza sativa L.. Wang, CL,Tang, SZ,Tang, YG. 1998

[6]Aluminium tolerance in rice is antagonistic with nitrate preference and synergistic with ammonium preference. Zhao, Xue Qiang,Shen, Ren Fang,Guo, Shi Wei,Shinmachi, Fumie,Sunairi, Michio,Noguchi, Akira,Hasegawa, Isao.

[7]Prevalence and Fimbrial Genotype Distribution of Poultry Salmonella Isolates in China (2006 to 2012). Xu, Ming,Zhu, Chunhong,Yu, Yan,Liu, Xuexian,Xu, Bu,Gong, Jiansen,Liu, Xuexian,Xu, Bu,Wang, Chengming,Zhang, Jinqiu,Kelly, Patrick,Wang, Chengming.

[8]Dissipation and distribution of chlorpyrifos in selected vegetables through foliage and root uptake. Ge, Jing,Wang, Donglan,Zhang, Zhiyong,Liu, Xianjin,Yu, Xiangyang,Ge, Jing,Lu, Mengxiao,Wang, Donglan,Zhang, Zhiyong,Yu, Xiangyang.

[9]Presence, distribution and risk assessment of polycyclic aromatic hydrocarbons in rice-wheat continuous cropping soils close to five industrial parks of Suzhou, China. Li, Yong,Ge, Jing,Cheng, Jin-jin,Yu, Xiang-yang,Li, Yong,Long, Ling,Ge, Jing,Yang, Li-xuan,Cheng, Jin-jin,Yu, Xiang-yang,Sun, Ling-xiang,Lu, Changying.

[10]New insights into the genetic networks affecting seed fatty acid concentrations in Brassica napus. Wang, Xiaodong,Yin, Yongtai,Gan, Lu,Yu, Longjiang,Li, Maoteng,Long, Yan,Zhang, Chunyu,Meng, Jinling,Long, Yan,Wang, Xiaodong,Liu, Liezhao. 2015

[11]Quantitative trait loci analysis and genome-wide comparison for silique related traits in Brassica napus. Wang, Xiaodong,Chen, Li,Chao, Hongbo,Li, Maoteng,Wang, Xiaodong,Chen, Li,Xiang, Jun,Gan, Jianping,Wang, Aina,Wang, Hao,Tian, Jianhua,Zhao, Xiaoping,Zhao, Yajun,Zhao, Weiguo. 2016

[12]Analysis of QTLs for panicle exsertion and its relationship with yield and yield-related traits in rice (Oryza sativa L.). Zhao, C. F.,Chen, T.,Zhao, Q. Y.,Zhou, L. H.,Zhao, L.,Zhang, Y. D.,Zhu, Z.,Yao, S.,Wang, C. L.. 2016

[13]Quantitative trait loci for resistance to Sharp Eyespot (Rhizoctonia cerealis) in recombinant inbred wheat lines from the cross Niavt 14 x Xuzhou 25. Jiang, Yanjie,Zhu, Fangfang,Cai, Shibin,Wu, Jizhong,Zhang, Qiaofeng. 2016

[14]QTL mapping for seedling traits associated with low-nitrogen tolerance using a set of advanced backcross introgression lines of rice. Zhao, Chun-fang,Zhou, Li-hui,Zhang, Ya-dong,Zhu, Zhen,Chen, Tao,Zhao, Qing-yong,Yao, Shu,Yu, Xin,Wang, Cai-lin. 2014

[15]Construction of a linkage map for quantitative trait loci associated with economically important traits in creeping bentgrass (Agrostis stolonifera L.). Zhang, Tifu,Ge, Min,Ye, Xiaoqing,Zhao, Han,Bughrara, Suleiman S..

[16]小麦雌性育性双向极端群体QTL定位策略初探. 徐海风,窦秉德,侯北伟,朱晓滨,杨晋彬. 2009

[17]基于BinMap的大麦耐盐QTL整合. 沈会权,张英虎,乔海龙,臧慧,陶红,栾海业,陈健,陈和. 2014

[18]植物基因组学在育种实践上的研究进展. 严国红,孙明法,姚立生,单忠德. 2011

[19]玉米产量性状QTL定位分析. 贾波,管飞翔,谢庆春,张玲,邓德祥,钱东海. 2013

[20]水稻耐冷QTL定位以及分子机理研究进展. 李育红,王志平,戴正元,黄年生. 2016

作者其他论文更多>>

Microbiome resistance mediates stimulation of reduced graphene oxide to simultaneous abatement of 2,2′,4,4′,5-pentabromodiphenyl ether and 3,4-dichloroaniline in paddy soils

作者：Sun, Yi;Teng, Ying;Wang, Xia;Zhao, Ling;Sun, Yi;Teng, Ying;Wang, Xia;Zhao, Ling;Li, Ran

关键词：Microbiome resistance; Reduced graphene oxide; Polybrominated diphenyl ethers; Chloroanilines; Paddy soils
Ultra-Highly Stiff and Tough Shape Memory Polyurea with Unprecedented Energy Density by Precise Slight Cross-Linking

作者：Chen, Jiaoyang;Yao, Bowen;Geng, Yuhao;Xu, Jianhua;Chen, Tao;Jing, Jiajie;Fu, Jiajun;Wang, Zhifeng;Wang, Cheng

关键词：covalent and supramolecular bonds; environmental stability and recyclability; high energy density; mechanical robustness and toughness; shape memory polymers
Silicon and Zinc Fertilizer Application Improves Grain Quality and Aroma in the japonica Rice Variety Nanjing 46

作者：Wei, Xiaodong;Zhang, Yadong;Song, Xuemei;Zhao, Ling;Zhao, Qingyong;Chen, Tao;Lu, Kai;Zhu, Zhen;Huang, Shengdong;Wang, Cailin

关键词：rice; silicon; zinc fertilizer; grain quality; aroma
The RING-Type Domain-Containing Protein GNL44 Is Essential for Grain Size and Quality in Rice (Oryza sativa L.)

作者：He, Lei;Chen, Tao;Liang, Wenhua;Zhao, Chunfang;Zhao, Ling;Yao, Shu;Zhou, Lihui;Zhu, Zhen;Zhao, Qingyong;Lu, Kai;Wang, Cailin;Zhang, Yadong;He, Lei;Chen, Tao;Liang, Wenhua;Zhao, Chunfang;Zhao, Ling;Yao, Shu;Zhou, Lihui;Zhu, Zhen;Zhao, Qingyong;Lu, Kai;Wang, Cailin;Zhang, Yadong;Zhu, Li

关键词：appearance quality; eating and cooking quality; grain yield; grain width; rice
Deciphering the Role of Waxy Gene Mutations in Enhancing Rice Grain Quality

作者：Yang, Yong;Zhou, Lihui;Feng, Linhao;Jiang, Jianying;Huang, Lichun;Liu, Qing;Zhang, Changquan;Liu, Qiaoquan;Yang, Yong;Feng, Linhao;Jiang, Jianying;Huang, Lichun;Zhang, Changquan;Liu, Qiaoquan;Zhou, Lihui;Zhang, Yadong;Liu, Qing

关键词：soft rice; low amylose; grain transparency; Wx; eating and cooking quality
Ultra-strong, ultra-tough, and transparent polymer composite with excellent dynamic and biodegradable properties enabled by bicontinuous structure

作者：Chen, Jiaoyang;Jing, Jiajie;Chen, Tao;Xu, Jianhua;Yao, Bowen;Fu, Jiajun;Wang, Cheng;Xu, Jianhua

关键词：Polymer composites; Hydrogen bonds; Ultra-toughness; Reparability; Sustainability
OsNAR2.1 induced endogenous nitrogen concentration variation affects transcriptional expression of miRNAs in rice

作者：Zhang, Yong;Zhao, Ling;Zhang, Yadong;Fan, Xiaoru;Wang, Yulong;Kong, Pulin;Fan, Xiaorong;Fan, Xiaorong;Zhang, Yadong

关键词：nitrogen concentration; OsNAR2; 1; miRNA; rice; previously unidentified miRNA

DISTRIBUTION OF SEVEN GRAIN GENES AND EVALUATION OF THEIR GENETIC EFFECTS ON GRAIN TRAITS

作者其他论文更多>>

Microbiome resistance mediates stimulation of reduced graphene oxide to simultaneous abatement of 2,2′,4,4′,5-pentabromodiphenyl ether and 3,4-dichloroaniline in paddy soils

Ultra-Highly Stiff and Tough Shape Memory Polyurea with Unprecedented Energy Density by Precise Slight Cross-Linking

Silicon and Zinc Fertilizer Application Improves Grain Quality and Aroma in the japonica Rice Variety Nanjing 46

The RING-Type Domain-Containing Protein GNL44 Is Essential for Grain Size and Quality in Rice (Oryza sativa L.)

Deciphering the Role of Waxy Gene Mutations in Enhancing Rice Grain Quality

Ultra-strong, ultra-tough, and transparent polymer composite with excellent dynamic and biodegradable properties enabled by bicontinuous structure

OsNAR2.1 induced endogenous nitrogen concentration variation affects transcriptional expression of miRNAs in rice

意见箱

DISTRIBUTION OF SEVEN GRAIN GENES AND EVALUATION OF THEIR GENETIC EFFECTS ON GRAIN TRAITS

作者其他论文 更多>>

Microbiome resistance mediates stimulation of reduced graphene oxide to simultaneous abatement of 2,2′,4,4′,5-pentabromodiphenyl ether and 3,4-dichloroaniline in paddy soils

Ultra-Highly Stiff and Tough Shape Memory Polyurea with Unprecedented Energy Density by Precise Slight Cross-Linking

Silicon and Zinc Fertilizer Application Improves Grain Quality and Aroma in the japonica Rice Variety Nanjing 46

The RING-Type Domain-Containing Protein GNL44 Is Essential for Grain Size and Quality in Rice (Oryza sativa L.)

Deciphering the Role of Waxy Gene Mutations in Enhancing Rice Grain Quality

Ultra-strong, ultra-tough, and transparent polymer composite with excellent dynamic and biodegradable properties enabled by bicontinuous structure

OsNAR2.1 induced endogenous nitrogen concentration variation affects transcriptional expression of miRNAs in rice

意 见 箱

作者其他论文更多>>

意见箱