J Integr Plant Biol ›› 2017, Vol. 59 ›› Issue (1): 60-74.DOI: 10.1111/jipb.12505
• • 上一篇
Zhongfeng Li
Zhongfeng Li1, Lingxue Jiang1, Yansong Ma1,2, Zhongyan Wei1, Huilong Hong1, Zhangxiong Liu1, Jinhui Lei1, Ying Liu1, Rongxia Guan1, Yong Guo1, Longguo Jin1, Lijuan Zhang1, Yinghui Li1, Yulong Ren1, Wei He1, Ming Liu1, Nang Myint Phyu Sin Htwe1, Lin Liu1, Bingfu Guo1, Jian Song1, Bing Tan1, Guifeng Liu1, Maiquan Li1, Xianli Zhang1, Bo Liu1, Xuehui Shi1, Sining Han1, Sunan Hua1, Fulai Zhou1, Lili Yu1, Yanfei Li1, Shuang Wang1, Jun Wang1,3, Ruzhen Chang1 and Lijuan Qiu1*
摘要: A new ethyl methanesulfonate (EMS) -induced soybean (Glycine max) population was developed. Over one thousand mutants with diverse abnormal phenotypes across generations and environments were identified and stored in the National GenBank. Our study shows that the mutants have big potential for accelerating functional genomic research and genetic improvement in soybean.