[1]A Kelch Motif-Containing Serine/Threonine Protein Phosphatase Determines the Large Grain QTL Trait in Rice. Hu, Zejun,Sun, Fan,Xin, Xiaoyun,Qian, Xi,Yang, Jingshui,Luo, Xiaojin,Hu, Zejun,He, Haohua,Wang, Wenxiang,Zhang, Shiyong. 2012

[2]Scanning QTLs for Grain Shape using Two Sets of Introgression Lines in Rice. Qiu, Xianjin,Du, Bin,Hu, Hui,Ou, Xiaoxue,Lv, Wenkai,Yang, Longwei,Xing, Danying,Xu, Junying,Li, Zhixin,Zhang, Yunbo,Wang, Xiaoyan,Xu, Jianlong,Xu, Jianlong,Zheng, Tianqing,Qiu, Xianjin. 2017

[3]Brassinosteroids Regulate OFP1, a DLT Interacting Protein, to Modulate Plant Architecture and Grain Morphology in Rice. Xiao, Yunhua,Liu, Dapu,Zhang, Guoxia,Chu, Chengcai,Xiao, Yunhua,Liu, Dapu,Zhang, Guoxia,Chu, Chengcai,Xiao, Yunhua,Liu, Dapu,Zhang, Guoxia,Chu, Chengcai,Tong, Hongning. 2017

[4]Dissecting the Genetic Basis of Extremely Large Grain Shape in Rice Cultivar 'JZ1560'. Ying, Jie-Zheng,Gao, Ji-Ping,Shan, Jun-Xiang,Zhu, Mei-Zhen,Shi, Min,Lin, Hong-Xuan,Ying, Jie-Zheng,Gao, Ji-Ping,Shan, Jun-Xiang,Zhu, Mei-Zhen,Shi, Min,Lin, Hong-Xuan,Ying, Jie-Zheng. 2012

[5]New Candidate Genes Affecting Rice Grain Appearance and Milling Quality Detected by Genome-Wide and Gene-Based Association Analyses. Wang, Xiaoqian,Pang, Yunlong,Wang, Chunchao,Shen, Congcong,Xu, Jianlong,Li, Zhikang,Chen, Kai,Zhu, Yajun,Xu, Jianlong,Ali, Jauhar,Xu, Jianlong,Li, Zhikang. 2017

[6]Molecular functions of genes related to grain shape in rice. Zheng, Jia,Zhang, Yadong,Wang, Cailin.

[7]Natural Variations in SLG7 Regulate Grain Shape in Rice. Miao, Jun,Peng, Xiurong,Leburu, Mamotshewa,Yuan, Fuhai,Gu, Houwen,Gao, Yun,Tao, Yajun,Gong, Zhiyun,Yi, Chuandeng,Gu, Minghong,Yang, Zefeng,Liang, Guohua,Gu, Haiyong,Zhu, Jinyan.

[8]Identification of quantitative trait loci for phosphorus use efficiency traits in rice using a high density SNP map. Wang, Kai,Cui, Kehui,Liu, Guoling,Xie, Weibo,Yu, Huihui,Huang, Jianliang,Nie, Lixiao,Shah, Farooq,Peng, Shaobing,Wang, Kai,Cui, Kehui,Liu, Guoling,Pan, Junfeng,Huang, Jianliang,Nie, Lixiao,Shah, Farooq,Peng, Shaobing,Pan, Junfeng,Shah, Farooq. 2014

[9]A single nucleotide polymorphism (SNP) marker linked to the fragrance gene in rice (Oryza sativa L.). Jin, QS,Waters, D,Cordeiro, GM,Henry, RJ,Reinke, RF.

[10]QTL Detection and Elite Alleles Mining for Stigma Traits in Oryza sativa by Association Mapping. Dang, Xiaojing,Liu, Erbao,Liang, Yinfeng,Liu, Qiangming,Breria, Caleb M.,Hong, Delin,Liu, Qiangming. 2016

[11]Loci and candidate genes conferring resistance to soybean cyst nematode HG type 2.5.7. Zhao, Xue,Teng, Weili,Cao, Guanglu,Li, Dongmei,Han, Yingpeng,Li, Wenbin,Li, Yinghui,Qiu, Lijuan,Li, Dongmei,Zheng, Hongkun. 2017

[12]Domestication footprints anchor genomic regions of agronomic importance in soybeans. Han, Yingpeng,Zhao, Xue,Zhao, Lin,Wang, Zhikun,Li, Wenbin,Liu, Dongyuan,Yang, Zhijiang,Zhou, Gang,Huang, Long,Zheng, Hongkun,Li, Yinghui,Qiu, Lijuan,Lightfoot, David A.,Zhang, Zhiwu.

[13]Identification of novel loci for salt stress at the seed germination stage in soybean. Kan, Guizhen,Li, Yakai,Hu, Zhenbin,Zhang, Wei,He, Xiaohong,Yu, Deyue,Ning, Lihua.

[14]Phenotypic characterization and genetic dissection of nine agronomic traits in Tokachi nagaha and its derived cultivars in soybean (Glycine max (L.) Merr.). Liu, Zhangxiong,Li, Huihui,Li, Yinghui,Guan, Rongxia,Guo, Yong,Chang, Ruzhen,Qiu, Li-Juan,Fan, Xuhong,Wang, Shuming,Huang, Wen,Yang, Jiyu,Wen, Zixiang,Wang, Dechun,Chen, Pengyin.

[15]Genetic dissection of large grain shape in rice cultivar 'Nanyangzhan' and validation of a grain thickness QTL (qGT3.1) and a grain length QTL (qGL3.4). Zhao, Da,Li, Pingbo,Wang, Lingqiang,Sun, Liang,Xia, Duo,Luo, Lijun,Gao, Guanjun,Zhang, Qinglu,He, Yuqing,Zhao, Da,Li, Pingbo,Wang, Lingqiang,Sun, Liang,Xia, Duo,Luo, Lijun,Gao, Guanjun,Zhang, Qinglu,He, Yuqing,Luo, Lijun. 2017

[16]Genomic regions associated with milling quality and grain shape identified in a set of random introgression lines of rice (Oryza sativa L.). Zheng, T. Q.,Xu, J. L.,Li, Z. K.,Zhai, H. Q.,Wan, J. M.. 2007

[17]Chronology of ancient Dongxiang wild rice (Oryza rufipogon Griff.), and the morphologies of grains, double-peaked phytoliths, and starch, in the middle Yangtze river region, China. Luo, Wuhong,Yang, Yuzhang,Fang, Fang,Li, Weiya,Hu, Fei,Zhang, Juzhong,Li, Weiya,Hu, Fei,Chen, Dazhou,Yu, Liqin. 2017

[18]Genetic Effects of Background-Independent Loci for Grain Weight and Shape Identified using Advanced Reciprocal Introgression Lines from Lemont x Teqing in Rice. Zheng, T. Q.,Zhu, L. H.,Sun, Y.,Zhai, H. Q.,Xu, Z. J.,Li, Z. K.,Wang, Y.,Xu, Z. J.,Ali, A. J.,Li, Z. K.,Mei, H. W..

[19]Genetic Analysis and Fine Mapping of Two Genes for Grain Shape and Weight in Rice. Guo, Longbiao,Ma, Lilian,Jiang, Hua,Zeng, Dali,Hu, Jiang,Wu, Liwen,Gao, Zhenyu,Zhang, Guangheng,Qian, Qian,Ma, Lilian,Wu, Liwen.

[20]Single nucleotide polymorphisms, haplotypes and combined genotypes of LAP3 gene in bovine and their association with milk production traits. Zheng, Xue,Ju, Zhihua,Wang, Ji,Li, Qiuling,Huang, Jinming,Zhong, Jifeng,Wang, Changfa,Zheng, Xue,Zhang, Aiwu. 2011