[1]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..

[2]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

[3]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

[4]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

[5]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

[6]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

[7]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

[8]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

[9]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

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

[11]Genome wide association mapping for grain shape traits in indica rice. Feng, Yue,Lu, Qing,Zhang, Mengchen,Xu, Qun,Yang, Yaolong,Wang, Shan,Yuan, Xiaoping,Yu, Hanyong,Wang, Yiping,Wei, Xinghua,Zhai, Rongrong.

[12]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.

[13]OsEF3, a homologous gene of Arabidopsis ELF3, has pleiotropic effects in rice. Fu, C.,Yang, X. O.,Chen, W.,Ma, Y.,Hu, J.,Li, S.,Fu, C.,Yang, X. O.,Chen, W.,Ma, Y.,Hu, J.,Li, S.,Fu, C.,Chen, X.. 2009

[14]Association Mapping of Grain Weight, Length and Width in Barley (Hordeum vulgare) Breeding Germplasm. Liu, X.,Ma, L.,Feng, Z.,Lai, Yunping,Yu, Y.,Wan, H.,Zhang, Z.,Wang, L.,Leng, Y.,Yang, W.,Ma, L.. 2017

[15]TaCKX6-D1, the ortholog of rice OsCKX2, is associated with grain weight in hexaploid wheat. Zhang, Lei,Zhao, Yong-Liang,Gao, Li-Feng,Zhao, Guang-Yao,Zhou, Rong-Hua,Jia, Ji-Zeng,Zhang, Lei,Zhang, Bao-Shi.

[16]Simultaneously improving yield under drought stress and non-stress conditions: a case study of rice (Oryza sativa L.). Guan, Y. S.,Liu, S. H.,Xu, J. L.,Wang, W. S.,Zhu, L. H.,Li, Z. K.,Guan, Y. S.,Serraj, R.,Liu, S. H.,Xu, J. L.,Ali, J.,Wang, W. S.,Venus, E.,Li, Z. K..

[17]Dissection of the qTGW1.1 region into two tightly-linked minor QTLs having stable effects for grain weight in rice. Zhang, Hong-Wei,Fan, Ye-Yang,Zhu, Yu-Jun,Chen, Jun-Yu,Zhuang, Jie-Yun,Zhang, Hong-Wei,Fan, Ye-Yang,Zhu, Yu-Jun,Chen, Jun-Yu,Zhuang, Jie-Yun,Zhang, Hong-Wei,Yu, Si-Bin,Zhang, Hong-Wei,Yu, Si-Bin. 2016

[18]Nighttime Warming Will Increase Winter Wheat Yield Through Improving Plant Development and Grain Growth in North China. Chen, Jin,Tian, Yunlu,Zhang, Xin,Zhang, Weijian,Zhang, Xin,Zheng, Chengyan,Song, Zhenwei,Deng, Aixin,Zhang, Weijian. 2014

[19]Precise mapping of a quantitative trait locus interval for spike length and grain weight in bread wheat (Triticum aestivum L.). Wu, Xinyi,Cheng, Ruiru,Xue, Shulin,Kong, Zhongxin,Wan, Hongshen,Li, Guoqiang,Huang, Yulong,Jia, Haiyan,Zhang, Lixia,Ma, Zhengqiang,Jia, Jizeng. 2014

[20]Improvement of bacterial blight resistance of hybrid rice in China using the Xa23 gene derived from wild rice (Oryza rufipogon). Zhou, Yong-Li,Uzokwe, Veronica N. E.,Cheng, Li-Rui,Wang, Lei,Chen, Kai,Gao, Xiao-Qing,Sun, Yong,Zhu, Ling-Hua,Zhang, Qi,Xu, Jian-Long,Li, Zhi-Kang,Zhang, Cong-He,Chen, Jin-Jie,Ali, Jauhar,Li, Zhi-Kang.