Search Results - "Han, Jienan"

Foxtail Millet [ Setaria italica (L.) Beauv.] Grown under Low Nitrogen Shows a Smaller Root System, Enhanced Biomass Accumulation, and Nitrate Transporter Expression by Nadeem, Faisal, Ahmad, Zeeshan, Wang, Ruifeng, Han, Jienan, Shen, Qi, Chang, Feiran, Diao, Xianmin, Zhang, Fusuo, Li, Xuexian

“…Foxtail millet (FM) [ (L.) Beauv.] is a grain and forage crop well adapted to nutrient-poor soils. To date little is known how FM adapts to low nitrogen (LN)…”
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Effect of five modified mass selection cycles on combining ability in two Chinese maize populations by Yong, Hongjun, Tang, Juan, Zhao, Xinzhe, Zhang, Fengyi, Yang, Zhiyuan, Li, Yi, Li, Mingshun, Zhang, Degui, Hao, Zhuanfang, Weng, Jianfeng, Han, Jienan, Peng, Bo, Li, Xinhai

“…The central goal of maize ( Zea mays L.) breeding is to increase the frequencies of favorable alleles in germplasm. Two broad-based composites Cpop.15 and…”
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Genetic basis of maize kernel protein content revealed by high-density bin mapping using recombinant inbred lines by Lu, Xin, Zhou, Zhiqiang, Wang, Yunhe, Wang, Ruiqi, Hao, Zhuanfang, Li, Mingshun, Zhang, Degui, Yong, Hongjun, Han, Jienan, Wang, Zhenhua, Weng, Jianfeng, Zhou, Yu, Li, Xinhai

“…Maize with a high kernel protein content (PC) is desirable for human food and livestock fodder. However, improvements in its PC have been hampered by a lack of…”
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Integrated transcriptome, small RNA, and degradome analysis reveals the complex network regulating starch biosynthesis in maize by Zhang, Xiaocong, Xie, Sidi, Han, Jienan, Zhou, Yu, Liu, Chang, Zhou, Zhiqiang, Wang, Feifei, Cheng, Zixiang, Zhang, Junjie, Hu, Yufeng, Hao, Zhuanfang, Li, Mingshun, Zhang, Degui, Yong, Hongjun, Huang, Yubi, Weng, Jianfeng, Li, Xinhai

“…Starch biosynthesis in endosperm is a key process influencing grain yield and quality in maize. Although a number of starch biosynthetic genes have been well…”
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Genomic selection to introgress exotic maize germplasm into elite maize in China to improve kernel dehydration rate by Yong, Hongjun, Wang, Nan, Yang, Xiaojun, Zhang, Fengyi, Tang, Juan, Yang, Zhiyuan, Zhao, Xinzhe, Li, Yi, Li, Mingshun, Zhang, Degui, Hao, Zhuanfang, Weng, Jianfeng, Han, Jienan, Li, Huihui, Li, Xinhai

“…Genomic selection (GS) is an efficient way for trait improvement in crops. GS for kernel dehydration rate (KDR) has not been reported until now. The elite…”
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Transcriptome Reveals Allele Contribution to Heterosis in Maize by Wu, Jianzhong, Sun, Dequan, Zhao, Qian, Yong, Hongjun, Zhang, Degui, Hao, Zhuanfang, Zhou, Zhiqiang, Han, Jienan, Zhang, Xiaocong, Xu, Zhennan, Li, Xinhai, Li, Mingshun, Weng, Jianfeng

“…Heterosis, which has greatly increased maize yields, is associated with gene expression patterns during key developmental stages that enhance hybrid phenotypes…”
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A differentially methylated region of the ZmCCT10 promoter affects flowering time in hybrid maize by Zhou, Zhiqiang, Lu, Xin, Zhang, Chaoshu, Li, Mingshun, Hao, Zhuanfang, Zhang, Degui, Yong, Hongjun, Han, Jienan, Li, Xinhai, Weng, Jianfeng

“…Flowering time (FT) is a key maize domestication trait, variation in which allows maize to grow in a wide range of latitudes. Although previous studies have…”
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Genetic Dissection of the General Combining Ability of Yield-Related Traits in Maize by Lu, Xin, Zhou, Zhiqiang, Yuan, Zhaohui, Zhang, Chaoshu, Hao, Zhuanfang, Wang, Zhenhua, Li, Mingshun, Zhang, Degui, Yong, Hongjun, Han, Jienan, Li, Xinhai, Weng, Jianfeng

“…Maize yield components including row number, kernel number per row, kernel thickness, kernel width, kernel length, 100-kernel weight, and volume weight affect…”
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ZmADF5, a Maize Actin-Depolymerizing Factor Conferring Enhanced Drought Tolerance in Maize by Liu, Bojuan, Wang, Nan, Yang, Ruisi, Wang, Xiaonan, Luo, Ping, Chen, Yong, Wang, Fei, Li, Mingshun, Weng, Jianfeng, Zhang, Degui, Yong, Hongjun, Han, Jienan, Zhou, Zhiqiang, Zhang, Xuecai, Hao, Zhuanfang, Li, Xinhai

“…Drought stress is seriously affecting the growth and production of crops, especially when agricultural irrigation still remains quantitatively restricted in…”
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Genomic prediction of yield performance among single-cross maize hybrids using a partial diallel cross design by Luo, Ping, Wang, Houwen, Ni, Zhiyong, Yang, Ruisi, Wang, Fei, Yong, Hongjun, Zhang, Lin, Zhou, Zhiqiang, Song, Wei, Li, Mingshun, Yang, Jie, Weng, Jianfeng, Meng, Zhaodong, Zhang, Degui, Han, Jienan, Chen, Yong, Zhang, Runze, Wang, Liwei, Zhao, Meng, Gao, Wenwei, Chen, Xiaoyu, Li, Wenjie, Hao, Zhuanfang, Fu, Junjie, Zhang, Xuecai, Li, Xinhai

“…Genomic prediction (GP) in plant breeding has the potential to predict and identify the best-performing hybrids based on the genotypes of their parental lines…”
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Down-regulation of nitrogen/carbon metabolism coupled with coordinative hormone modulation contributes to developmental inhibition of the maize ear under nitrogen limitation by Yu, Jiaojiao, Han, Jienan, Wang, Ruifeng, Li, Xuexian

“…The kernel number is primarily determined from 2 weeks pre-silking to 3 weeks post-silking, largely depending on dynamic nitrogen (N) and carbohydrate…”
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A novel maize F-bZIP member, ZmbZIP76, functions as a positive regulator in ABA-mediated abiotic stress tolerance by binding to ACGT-containing elements by He, Lin, Wu, Zixuan, Wang, Xueheyuan, Zhao, Changjiang, Cheng, Dianjun, Du, Chuhuai, Wang, Haoyu, Gao, Yuan, Zhang, Ruijia, Han, Jienan, Xu, Jingyu

“…The group F-bZIP transcription factors (TFs) in Arabidopsis are involved in nutrient deficiency or salt stress responses. Nevertheless, our learning about the…”
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NIN-LIKE PROTEIN3.2 inhibits repressor Aux/IAA14 expression and enhances root biomass in maize seedlings under low nitrogen by Wang, Ruifeng, Zhong, Yanting, Han, Jienan, Huang, Liangliang, Wang, Yongqi, Shi, Xionggao, Li, Mengfei, Zhuang, Yao, Ren, Wei, Liu, Xiaoting, Cao, Huairong, Xin, Beibei, Lai, Jinsheng, Chen, Limei, Chen, Fanjun, Yuan, Lixing, Wang, Yi, Li, Xuexian

“…Plants generally enhance their root growth in the form of greater biomass and/or root length to boost nutrient uptake in response to short-term low nitrogen…”
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Gene pyramiding of ZmGLK36 and ZmGDIα-hel for rough dwarf disease resistance in maize by Li, Gongjian, Xu, Zhennan, Wang, Jianjun, Mu, Chunhua, Zhou, Zhiqiang, Li, Mingshun, Hao, Zhuanfang, Zhang, Degui, Yong, Hongjun, Han, Jienan, Li, Xinhai, Zhao, Jiqiang, Weng, Jianfeng

“…Maize rough dwarf disease (MRDD) caused by pathogenic viruses in the genus Fijivirus in the family Reoviridae is one of the most destructive diseases in maize…”
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ZmSNAC13, a maize NAC transcription factor conferring enhanced resistance to multiple abiotic stresses in transgenic Arabidopsis by Luo, Ping, Chen, Yong, Rong, Kewei, Lu, Yuelei, Wang, Nan, Xu, Zhennan, Pang, Bo, Zhou, Di, Weng, Jianfeng, Li, Mingshun, Zhang, Degui, Yong, Hongjun, Han, Jienan, Zhou, Zhiqiang, Gao, Wenwei, Hao, Zhuanfang, Li, Xinhai

“…Abiotic stress is the main factor that severely limits crop growth and yield. NAC (NAM, ATAF1/2 and CUC2) transcription factors play an important role in…”
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Using the dominant mutation gene Ae1-5180 (amylose extender) to develop high-amylose maize by Han, Jienan, Guo, Zenghui, Wang, Meijuan, Liu, Shiyuan, Hao, Zhuanfang, Zhang, Degui, Yong, Hongjun, Weng, Jianfeng, Zhou, Zhiqiang, Li, Mingshun, Li, Xinhai

“…Maize amylose is a type of high value-added starch used for medical, food, and chemical applications. Mutations in the starch branching enzyme (SBEIIb), with…”
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ZD958 is a low-nitrogen-efficient maize hybrid at the seedling stage among five maize and two teosinte lines by Han, Jienan, Wang, Lifeng, Zheng, Hongyan, Pan, Xiaoying, Li, Huiyong, Chen, Fanjun, Li, Xuexian

“…Main conclusion ZD958 was the most low-N-efficient line among five maize and two teosinte lines. Zea parviglumis and Zea diploperennis were insensitive to N…”
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Identification and Fine-Mapping of a Novel QTL, qMrdd2 , That Confers Resistance to Maize Rough Dwarf Disease by Xu, Zhennan, Wang, Feifei, Zhou, Zhiqiang, Meng, Qingchang, Chen, Yanping, Han, Xiaohua, Tie, Shuanggui, Liu, Changlin, Hao, Zhuanfang, Li, Mingshun, Zhang, Degui, Han, Jienan, Wang, Zhenhua, Li, Xinhai, Weng, Jianfeng

“…Maize rough dwarf disease (MRDD) is caused by a virus and seriously affects maize quality and yield worldwide. MRDD can be most effectively controlled with…”
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Genome-wide association and co-expression uncovered ZmMYB71 controls kernel starch content in maize by Han, Jienan, Li, Ran, Zhang, Ze, Liu, Shiyuan, Liu, Qianqian, Xu, Zhennan, Zhou, Zhiqiang, Lu, Xin, Shangguan, Xiaochuan, Zhou, Tingfang, Weng, Jianfeng, Hao, Zhuanfang, Zhang, Degui, Yong, Hongjun, Xu, Jingyu, Li, Mingshun, Li, Xinhai

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A transcription factor ZmGLK36 confers broad resistance to maize rough dwarf disease in cereal crops by Xu, Zhennan, Zhou, Zhiqiang, Cheng, Zixiang, Zhou, Yu, Wang, Feifei, Li, Mingshun, Li, Gongjian, Li, Wenxue, Du, Qingguo, Wang, Ke, Lu, Xin, Tai, Yuxin, Chen, Runyi, Hao, Zhuanfang, Han, Jienan, Chen, Yanping, Meng, Qingchang, Kong, Xiaomin, Tie, Shuanggui, Mu, Chunhua, Song, Weibin, Wang, Zhenhua, Yong, Hongjun, Zhang, Degui, Wang, Haiyang, Weng, Jianfeng, Li, Xinhai

“…Maize rough dwarf disease (MRDD), caused by maize rough dwarf virus (MRDV) or rice black-streaked dwarf virus (RBSDV), seriously threatens worldwide production…”
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