Search Results - "Xu, Yunbi"

Bulked sample analysis in genetics, genomics and crop improvement by Zou, Cheng, Wang, Pingxi, Xu, Yunbi

“…Summary Biological assay has been based on analysis of all individuals collected from sample populations. Bulked sample analysis (BSA), which works with…”
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Marker‐Assisted Selection in Plant Breeding: From Publications to Practice by Xu, Yunbi, Crouch, Jonathan H.

“…The volume of publications on the development and to a lesser extent the application of molecular markers in plant breeding has increased dramatically during…”
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Enhancing genetic gain in the era of molecular breeding by Xu, Yunbi, Li, Ping, Zou, Cheng, Lu, Yanli, Xie, Chuanxiao, Zhang, Xuecai, Prasanna, Boddupalli M., Olsen, Michael S.

“…As one of the important concepts in conventional quantitative genetics and breeding, genetic gain can be defined as the amount of increase in performance that…”
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An alternative strategy for targeted gene replacement in plants using a dual-sgRNA/Cas9 design by Zhao, Yongping, Zhang, Congsheng, Liu, Wenwen, Gao, Wei, Liu, Changlin, Song, Gaoyuan, Li, Wen-Xue, Mao, Long, Chen, Beijiu, Xu, Yunbi, Li, Xinhai, Xie, Chuanxiao

“…Precision DNA/gene replacement is a promising genome-editing tool that is highly desirable for molecular engineering and breeding by design. Although the…”
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Genetic variation and population structure in China summer maize germplasm by Shu, Guoping, Cao, Gangqiang, Li, Niannian, Wang, Aifang, Wei, Fang, Li, Ting, Yi, Li, Xu, Yunbi, Wang, Yibo

“…Maize ( Zea mays L.) germplasm in China Summer maize ecological region (CSM) or central corn-belt of China is diverse but has not been systematically…”
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Enhancing Genetic Gain through Genomic Selection: From Livestock to Plants by Xu, Yunbi, Liu, Xiaogang, Fu, Junjie, Wang, Hongwu, Wang, Jiankang, Huang, Changling, Prasanna, Boddupalli M., Olsen, Michael S., Wang, Guoying, Zhang, Aimin

“…Although long-term genetic gain has been achieved through increasing use of modern breeding methods and technologies, the rate of genetic gain needs to be…”
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Cloning and characterization of maize miRNAs involved in responses to nitrogen deficiency by Zhao, Meng, Tai, Huanhuan, Sun, Suzhen, Zhang, Fusuo, Xu, Yunbi, Li, Wen-Xue

“…Although recent studies indicated that miRNAs regulate plant adaptive responses to nutrient deprivation, the functional significance of miRNAs in adaptive…”
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Maize HapMap2 identifies extant variation from a genome in flux by Chia, Jer-Ming, Song, Chi, Bradbury, Peter J, Costich, Denise, de Leon, Natalia, Doebley, John, Elshire, Robert J, Gaut, Brandon, Geller, Laura, Glaubitz, Jeffrey C, Gore, Michael, Guill, Kate E, Holland, Jim, Hufford, Matthew B, Lai, Jinsheng, Li, Meng, Liu, Xin, Lu, Yanli, McCombie, Richard, Nelson, Rebecca, Poland, Jesse, Prasanna, Boddupalli M, Pyhäjärvi, Tanja, Rong, Tingzhao, Sekhon, Rajandeep S, Sun, Qi, Tenaillon, Maud I, Tian, Feng, Wang, Jun, Xu, Xun, Zhang, Zhiwu, Kaeppler, Shawn M, Ross-Ibarra, Jeffrey, McMullen, Michael D, Buckler, Edward S, Zhang, Gengyun, Xu, Yunbi, Ware, Doreen

“…The nucleotide diversity present in maize exceeds that in humans by an order of magnitude, and it has been challenging to characterize the high levels of…”
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Large-Scale Analysis of Combining Ability and Heterosis for Development of Hybrid Maize Breeding Strategies Using Diverse Germplasm Resources by Yu, Kanchao, Wang, Hui, Liu, Xiaogang, Xu, Cheng, Li, Zhiwei, Xu, Xiaojie, Liu, Jiacheng, Wang, Zhenhua, Xu, Yunbi

“…Understanding combining ability and heterosis among diverse maize germplasm resources is important for breeding hybrid maize (Zea mays L.). Using 28 temperate…”
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Construction of the third-generation Zea mays haplotype map by Bukowski, Robert, Guo, Xiaosen, Lu, Yanli, Zou, Cheng, He, Bing, Rong, Zhengqin, Wang, Bo, Xu, Dawen, Yang, Bicheng, Xie, Chuanxiao, Fan, Longjiang, Gao, Shibin, Xu, Xun, Zhang, Gengyun, Li, Yingrui, Jiao, Yinping, Doebley, John F, Ross-Ibarra, Jeffrey, Lorant, Anne, Buffalo, Vince, Romay, M Cinta, Buckler, Edward S, Ware, Doreen, Lai, Jinsheng, Sun, Qi, Xu, Yunbi

“…Characterization of genetic variations in maize has been challenging, mainly due to deterioration of collinearity between individual genomes in the species. An…”
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Joint linkage–linkage disequilibrium mapping is a powerful approach to detecting quantitative trait loci underlying drought tolerance in maize by Lu, Yanli, Zhang, Shihuang, Shah, Trushar, Xie, Chuanxiao, Hao, Zhuanfang, Li, Xinhai, Farkhari, Mohammad, Ribaut, Jean-Marcel, Cao, Moju, Rong, Tingzhao, Xu, Yunbi, Zhang, Qifa

“…This paper describes two joint linkage–linkage disequilibrium (LD) mapping approaches: parallel mapping (independent linkage and LD analysis) and integrated…”
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Natural antisense transcripts are significantly involved in regulation of drought stress in maize by Xu, Jie, Wang, Qi, Freeling, Micheal, Zhang, Xuecai, Xu, Yunbi, Mao, Yan, Tang, Xin, Wu, Fengkai, Lan, Hai, Cao, Moju, Rong, Tingzhao, Lisch, Damon, Lu, Yanli

“…Natural antisense transcripts (NATs) are a prominent and complex class of regulatory RNAs. Using strand-specific RNA sequencing, we identified 1769 sense and…”
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Epistasis Activation Contributes Substantially to Heterosis in Temperate by Tropical Maize Hybrids by Sang, Zhiqin, Wang, Hui, Yang, Yuxin, Zhang, Zhanqin, Liu, Xiaogang, Li, Zhiwei, Xu, Yunbi

“…Epistasis strongly affects the performance of superior maize hybrids. In this study, a multiple-hybrid population, consisting of three hybrid maize sets with…”
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Identification of major QTL for waterlogging tolerance in maize using genome-wide association study and bulked sample analysis by Guo, Zifeng, Zhou, Shuangzhen, Wang, Shanhong, Li, Wen-Xue, Du, Hewei, Xu, Yunbi

“…Waterlogging has increasingly become one of the major constraints to maize ( Zea mays L.) production in some maize growing areas as it seriously decreases the…”
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Combined linkage and association mapping reveal QTL for host plant resistance to common rust (Puccinia sorghi) in tropical maize by Zheng, Hongjian, Chen, Jiafa, Mu, Chunhua, Makumbi, Dan, Xu, Yunbi, Mahuku, George

“…Common rust, caused by Puccinia sorghi, is an important foliar disease of maize that has been associated with up to 50% grain yield loss. Development of…”
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Breeding by design for future rice: Genes and genome technologies by Xu, Jianlong, Xing, Yongzhong, Xu, Yunbi, Wan, Jianmin

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Crop Breeding Chips and Genotyping Platforms： Progress, Challenges, and Perspectives by Rasheed, Awais, Hao, Yuanfeng, Xia, Xianchun, Khan, Awais, Xu, Yunbi, Varshney, Rajeev K., He, Zhonghu

“…There is a rapidly rising trend in the development and application of molecular marker assays for gene map- ping and discovery in field crops and trees. Thus…”
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Male sterility in crops: Application of human intelligence to natural variation by Wan, Xiangyuan, Wu, Suowei, Xu, Yunbi

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Genome-wide association analysis for nine agronomic traits in maize under well-watered and water-stressed conditions by Xue, Yadong, Warburton, Marilyn L, Sawkins, Mark, Zhang, Xuehai, Setter, Tim, Xu, Yunbi, Grudloyma, Pichet, Gethi, James, Ribaut, Jean-Marcel, Li, Wanchen, Zhang, Xiaobo, Zheng, Yonglian, Yan, Jianbing

“…Drought can cause severe reduction in maize production, and strongly threatens crop yields. To dissect this complex trait and identify superior alleles, 350…”
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Maize (Zea mays L.) genome size indicated by 180-bp knob abundance is associated with flowering time by Jian, Yinqiao, Xu, Cheng, Guo, Zifeng, Wang, Shanhong, Xu, Yunbi, Zou, Cheng

“…Flowering time is considered one of the most important agronomic traits in maize ( Zea mays L.), and previous studies have indicated that this trait is…”
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