亓增军，博士、教授。长期从事小麦染色体工程和种质创新。近年来重点开展了染色体鉴定与化学诱变新技术研究。2013年成功将广泛应用的重复序列pSc119.2和pAs1开发成8个56-59 nt的单链寡核苷酸（oligonucleotide）探针，分别编号为pSc119.2-1 ~ 2 和pAs1-1 ~ 6，用于替代传统的质粒探针；目前，成功开发了一批高效的寡核苷酸探针（套）及利用寡核苷酸染液鉴定染色体的方法，为小麦、大麦、玉米和花生染色体工程提供了简单、经济和高效的工具；建立了基于中国春非整倍体分析的小麦高清参考核型，发现我国大面积栽培小麦品种及其骨干亲本存在高频率染色体变异；建立了利用zebularine诱致小黑麦染色体变异的方法；育成一批小麦-百萨偃麦草、小麦-荆州黑麦异染色体系和小黑麦非整倍体，区段定位了5个外源有益基因；相关研究发表SCI论文17篇、会议摘要8篇，获得授权专利5项，主持或参加完成国家或省部级课题4项。曾获2011年和2016年校级教学成果一等奖（均为第3位）、江苏省高等学校优秀多媒体教学课件遴选二等奖（第5位）和2012年国家技术发明二等奖（第28位，二级证书）；培养毕业研究生27名，其中1人获江苏省优秀硕士学位论文、4人获校级优秀硕士学位论文。

联系方式：zjqi@njau.edu.cn

近期发表SCI论文 (*为通讯作者；#为同等贡献)：

1. Zhang Siyu ^(#) , Zhu Minqiu ^(#) , Shang Yi ^(#), Wang Jiaqi , Dawadundup, Zhuang Lifang, Zhang Jinlong, Chu Chenggen, and Qi Zengjun^(*). Physical organization of repetitive sequences and chromosome diversity of barley revealed by fluorescence in situ hybridization (FISH).Genome , 2019, 62: 329–339

2.  Chen Jianyong, Tang Yuqing, Yao Lesha, Wu Hao, Tu Xinyu , Zhuang Lifang, Qi Zengjun^(*). Cytological and molecular characterization of Thinopyrum bessarabicum chromosomes and structural rearrangements introgressed in wheat. Molecular Breeding, 2019, 39:146

3.  Guo Jiangtao, Lei Yanhong, Zhang Huiting, Song Danhua, Liu Xin, Cao Zhenglan, Chu Chenggen, Zhuang Lifang^(*), Qi Zengjun^(*). Frequent variations in tandem repeats pSc200 and pSc119.2 cause rapid chromosome evolution of open-pollinated rye. Molecular Breeding, 2019, 39:133

4.  Du Pei ^(#), Cui Caihong ^(#), Liu Hua ^(#), Fu Liuyang, Li Lina,  Dai Xiaodong, Qin Li , Wang Siyu, Han Suoyi , Xu Jing, Liu Bing, Huang Bingyan, Tang Fengshou, Dong Wenzhao^(*), Qi Zengjun^(*) and Zhang Xinyou^(*). Development of an oligonucleotide dye solution facilitates high throughput and cost-efficient chromosome identification in peanut. Plant Methods, 2019,  15:69

5. Du Pei ^(#), Li Lina ^(#), Liu Hua, Fu Liuyang, Qin Li, Zhang Zhongxin, Cui Caihong, Sun Ziqi, Han Suoyi, Xu Jing, Dai Xiaodong, Huang Bingyan, Dong Wenzhao, Tang Fengshou, Zhuang Lifang, Han Yonghua, Qi Zengjun^(*) and Zhang Xinyou ^(*). High-resolution chromosome painting with repetitive and single-copy oligonucleotides in Arachis species identifies structural rearrangements and genome differentiation. BMC Plant Biology, 2018, 18:240

6.  Huang X. ^(#), Zhu M. ^(#), Zhuang L. ^(#), Zhang S., Wang J., Chen X., Wang D., Chen J., Bao Y., Guo J., Zhang J., Feng Y., Chu C., Du P., Qi Z. ^(*), Wang H. ^(*), Chen P. Structural chromosome rearrangements and polymorphisms identified in Chinese wheat cultivars by high-resolution multiplex oligonucleotide FISH. Theoretical and Applied Genetics, 2018, 131:1967–1986

7. Wu Nan^(#); Li Min^(#); Sun Haixing^(#); Cao Zhenglan; Liu Peng; Ding Taochun; Xu Haibin; Chu Chenggen; Zhuang Lifang^(*); Qi Zengjun^(*), RNA-seq facilitates development of chromosome-specific markers and transfer of rye chromatin to wheat, Molecular Breeding, 2018, 38:6
   

8.  Du Pei^(#); Zhuang Lifang^(#); Wang Yanzhi; Yuan Li; Wang Qing; Wang Danrui; Dawadondup; Tan Lijun; Shen Jian; Xu Haibin; Zhao Han; Chu Chenggen; Qi Zengjun^(*), Development of oligonucleotides and multiplex probes forquick and accurate identification of wheat and Thinopyrum bessarabicum chromosomes, Genome, 2017, 60: 93~103

9.  Zhu Minqiu^(#); Du Pei^(#); Zhuang Lifang^(#); Chu Chenggen; Zhao Han^(*); Qi Zengjun^(*), A simple and efficient non-denaturing FISH method for maize chromosome differentiation using single-strand oligonucleotideprobes, Genome, 2017, 60: 657–664

10.  Ma Xuhui^(#); Wang Qing^(#); Wang Yanzhi^(#); Ma Jieyun; Wu Nan; Ni Shuang; Luo Tengxiao; Zhuang Lifang^(*); Chu Chenggen; Cho Seong-Woo; Tsujimoto Hisashi; Qi Zengjun^(*), Chromosome aberrations induced by zebularine in triticale, Genome, 2016, 59(7): 485~492

11. DU Pei^(#); LI Li-na^(#); ZHANG Zhong-xin; LIU Hua; QIN Li; HUANG Bing-yan; DONG Wen-zhao; TANG Feng-shou; QI Zeng-jun^(*); ZHANG Xin-you^(*), Chromosome painting of telomeric repeats reveals new evidence for genome evolution in peanut, Journal of Integrative Agriculture, 2016, 15(11): 2488~2496
    

12.  Pu Jing^(#); Wang Qing^(#); Shen Yuefeng^(#); Zhuang Lifang; Li Chenxu; Tan Mengfa; Bie Tongde; Chu Chenggen; Qi Zengjun^(*), Physical mapping of chromosome 4J of Thinopyrum bessarabicum using gamma radiation induced aberrations, Theoretical and Applied Genetics, 2015, 128: 1319~1328

13. Zhuang Lifang^(#); Liu Peng^(#); Liu Zhenqian^(#); Chen Tingting; Wu Nan; Sun Ling; Qi Zengjun^(*), Multiple structural aberrations and physical mapping of rye chromosome 2R introgressed into wheat, Molecular Breeding, 2015, 35(6)
    

14.  Shen Yuefeng^(#); Shen Jian^(#); Dawadondup; Zhuang Lifang; Wang Yanzhi; Pu Jing; Feng Yigao; Chu Chenggen; Wang Xiue; Qi Zengjun^(*), Physical localization of a novel blue-grained gene derived from Thinopyrum bessarabicum, Molecular Breeding, 2013, 31(1): 195~204

15. Zhuang L. F.^(#); Sun L.^(#); Li A. X.; Chen T. T.; Qi Z. J.^(*), Identification and development of diagnostic markers for a powdery mildew resistance gene on chromosome 2R of Chinese rye cultivar Jingzhouheimai, Molecular Breeding, 2011, 27(4): 455~465
    

16. Qi Zengjun^(#)(*); Du Pei^(#); Qian Baoli; Zhuang Lifang; Chen Huafeng; Chen Tingting; Shen Jian; Guo Jie; Feng Yigao; Pei Ziyou, Characterization of a wheat-Thinopyrum bessarabicum (T2JS-2BS.2BL) translocation line, Theoretical and Applied Genetics, 2010, 121(3): 589~597
    

17. Wang D^(#), Zhuang LF^(#), Sun L, Feng YG, Pei ZY, Qi ZJ^(*). Allocation of a powdery mildew resistance locus to the chromosome arm 6RL of Secale cereale L. cv. ‘Jingzhouheimai’, Euphytica, 2010, 176:157-166