[1]High-density genetic map construction and gene mapping of pericarp color in wax gourd using specific-locus amplified fragment (SLAF) sequencing. Jiang, Biao,Liu, Wenrui,Xie, Dasen,Peng, Qingwu,He, Xiaoming,Lin, Yu'e,Liang, Zhaojun,Jiang, Biao,Liu, Wenrui,Xie, Dasen,He, Xiaoming. 2015

[2]Construction of a high-density SNP genetic map in fluecured tobacco based on SLAF-seq. Gong, Daping,Xu, Xiuhong,Wang, Chuanyi,Ren, Min,Wang, Chunkai,Chen, Mingli,Huang, Long,Xu, Xiuhong,Wang, Chunkai,Wang, Chunkai.

[3]Construction of a high-density genetic linkage map in pear (Pyrus communis x Pyrus pyrifolia nakai) using SSRs and SNPs developed by SLAF-seq. Wang, Long,Wu, Jun,Yin, Hao,Zhang, Shaoling,Wang, Long,Li, Xiugen,Wang, Lei,Xue, Huabai.

[4]Construction of a high-density genetic map for watermelon (Citrullus lanatus L.) based on large-scale SNP discovery by specific length amplified fragment sequencing (SLAF-seq). Shang, Jianli,Li, Na,Li, Nannan,Xu, Yongyang,Ma, Shuangwu,Wang, Jiming.

[5]Construction of a high-density genetic map and the X/Y sex-determining gene mapping in spinach based on large-scale markers developed by specific-locus amplified fragment sequencing (SLAF-seq). Qian, Wei,Fan, Guiyan,Liu, Dandan,Zhang, Helong,Wang, Xiaowu,Wu, Jian,Xu, Zhaosheng. 2017

[6]Genetic Diversity, Population Structure, and Linkage Disequilibrium of an Association-Mapping Panel Revealed by Genome-Wide SNP Markers in Sesame. Cui, Chengqi,Mei, Hongxian,Liu, Yanyang,Zhang, Haiyang,Zheng, Yongzhan,Mei, Hongxian,Liu, Yanyang,Zhang, Haiyang,Zheng, Yongzhan,Mei, Hongxian,Liu, Yanyang,Zhang, Haiyang,Zheng, Yongzhan. 2017

[7]Pathogenic variation and molecular characterization of Fusarium species isolated from wilted sesame in China. Li Dong-hua,Wang Lin-hai,Zhang Yan-xin,Lv Hai-xia,Qi Xiao-qiong,Wei Wen-liang,Zhang Xiu-rong. 2012

[8]HPLC Analysis of Seed Sesamin and Sesamolin Variation in a Sesame Germplasm Collection in China. Wang, Linhai,Zhang, Yanxin,Wei, Wenliang,Zhang, Xiurong,Li, Peiwu,Wang, Xuefang,Zhang, Wen. 2012

[9]Identification of favorable SNP alleles and candidate genes for traits related to early maturity via GWAS in upland cotton. Junji Su,Chaoyou Pang,Hengling Wei,Libei Li,Bing Liang,Caixiang Wang,Meizhen Song,Hantao Wang,Shuqi Zhao,Xiaoyun Jia,Guangzhi Mao,Long Huang,Dandan Geng,Chengshe Wang,Shuli Fan. 2016

[10]High-Density Genetic Mapping Identifies New Major Loci for Tolerance to Low-Phosphorus Stress in Soybean. Zhang, Dan,Li, Hongyan,Chu, Shanshan,Lv, Haiyan,Wang, Jinshe,Zhang, Hengyou,Hu, Zhenbin,Yu, Deyue. 2016

[11]Rapid identification of rice blast resistance gene by specific length amplified fragment sequencing. Chen, Shen,Wang, Wen-juan,Su, Jing,Wang, Cong-ying,Feng, Ai-qing,Yang, Jian-yuan,Zeng, Lie-xian,Zhu, Xiao-yuan. 2016

[12]Cloning and Characterization of TaTGW-7A Gene Associated with Grain Weight in Wheat via SLAF-seq-BSA. Hu, Ming-Jian,Zhang, Hai-Ping,Liu, Kai,Cao, Jia-Jia,Wang, Sheng-Xing,Jiang, Hao,Wu, Zeng-Yun,Lu, Jie,Zhu, Xiao F.,Xia, Xian-Chun,Sun, Gen-Lou,Ma, Chuan-Xi,Chang, Cheng,Xia, Xian-Chun,Sun, Gen-Lou. 2016

[13]Construction of a High-Density Genetic Map Based on Large-Scale Marker Development in Mango Using Specific-Locus Amplified Fragment Sequencing (SLAF-seq). Luo, Chun,Shu, Bo,Yao, Quangsheng,Wu, Hongxia,Xu, Wentian,Wang, Songbiao. 2016

[14]Physical mapping and candidate gene prediction of fertility restorer gene of cytoplasmic male sterility in cotton. Zhao, Cunpeng,Zhao, Guiyuan,Geng, Zhao,Wang, Zhaoxiao,Wang, Kaihui,Liu, Suen,Zhang, Hanshuang,Guo, Baosheng,Geng, Junyi. 2018

[15]QTL Mapping by SLAF-seq and Expression Analysis of Candidate Genes for Aphid Resistance in Cucumber. Liang, Danna,Chen, Minyang,Qi, Xiaohua,Xu, Qiang,Zhou, Fucai,Chen, Xuehao,Liang, Danna. 2016

[16]Toward Identification of Black Lemma and Pericarp Gene Blp1 in Barley Combining Bulked Segregant Analysis and Specific-Locus Amplified Fragment Sequencing. Jia, Qiaojun,Liang, Zongsuo,Jia, Qiaojun,Liang, Zongsuo,Wang, Junmei,Zhu, Jinghuan,Hua, Wei,Shang, Yi,Yang, Jianming. 2017

[17]Construction of a high-density genetic map based on large-scale markers developed by specific length amplified fragment sequencing (SLAF-seq) and its application to QTL analysis for isoflavone content in Glycine max. Li, Bin,Tian, Ling,Zhang, Jingying,Han, Fenxia,Yan, Shurong,Wang, Lianzheng,Sun, Junming,Huang, Long,Zheng, Hongkun. 2014

[18]Genome-Wide Association Study Identifying Candidate Genes Influencing Important Agronomic Traits of Flax (Linum usitatissimum L.)Using SLAF-seq. Xie, Dongwei,Dai, Zhigang,Yang, Zemao,Tang, Qing,Su, Jianguang,Xie, Dongwei,Zhao, Debao,Yang, Xue,Zhang, Liguo,Sun, Jian. 2018

[19]Genome-Wide SNP Markers Based on SLAF-Seq Uncover Breeding Traces in Rapeseed (Brassica napus L.). Zhou, Qinghong,Zhou, Can,Fan, Shuying,Wu, Caijun,Fu, Donghui,Huang, Yingjin,Zheng, Wei,Mason, Annaliese S.. 2017

[20]Mining candidate genes associated with powdery mildew resistance in cucumber via super-BSA by specific length amplified fragment (SLAF) sequencing. Zhang, Peng,Zhu, Yuqiang,Wang, Lili,Chen, Liping,Zhou, Shengjun. 2015