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1. Li L., Du Y., He C.,4, Dietrich C.R., Li J., Ma X., Wang R., Liu Q., Liu S., Wang G., Schnable P.S., Zheng J*. The maize glossy6 gene is involved in cuticular wax deposition and drought tolerance. Journal of Experimental Botany, 2019, 70(12): 3089-3099.(*通讯作者)
2. Zheng J., He C., Qin Y., Lin G., Park W., Sun M., Li J., Lu X., Zhang C., Yeh C., Gunasekara J., Zeng E., Wei H., Schnable P., Wang G., Liu S. Co-expression Analysis Aids in the Identification of Genes in the Cuticular Wax Pathway in Maize. The Plant Journal, 2019, 97(3): 530-542.
3. Zheng J., Zeng E., Du Y., He C., Hu Y., Jiao Z., Wang K., Li W., Ludens M., Fu J., Wang H., White F., Wang G., Liu S. Temporal Small RNA Expression Profiling Under Drought Reveals a Potential Regulatory Role of snoRNAs in Drought Responses of Maize. The Plant Genome, 2019, 12(1): 1-15.
4. Li J., Fu J., Chen Y., Fan K., He C., Zhang Z., Li L., Liu Y., Zheng J., Ren D., and Wang G. The U6 Biogenesis-Like 1 Plays an Important Role in Maize Kernel and Seedling Development by Affecting the 3’ End Processing of U6 snRNA. Molecular Plant. 2017, 10, 470–482.
5. Liu S.Z., Zheng J*, Migeon P., Ren J., Hu Y., He C., Liu H.J., Fu J.J., White F.F., Toomajian C., Wang G.Y., Unbiased K-mer Analysis Reveals Changes in Copy Number of Highly Repetitive Sequences During Maize Domestication and Improvement, Scientific Reports, 2017,7: 42444. doi: 10.1038/srep42444.(并列第一作者)
6. Zhang F., Li L., Jiao Z.Z., Chen Y.S., Liu H., Chen X.J., Fu J.J., Wang G.Y., Zheng J*. Characterization of the Calcineurin B-Like (CBL) gene family in maize and functional analysis of ZmCBL9 under abscisic acid and abiotic stress treatments, Plant Science. 2016, 253: 118–129(*通讯作者)
7. Zhang F., Chen X., Wang J., Zheng J.* (2015), Overexpression of a maize SNF-related protein kinase gene, ZmSnRK2.11, reduces salt and drought tolerance in Arabidopsis. Journal of Integrative Agriculture. 14(7): 1229–1241 (*通讯作者)
8. Chen X., Huang Q., Zhang F., Wang B., Wang J., Zheng J.* (2014), ZmCIPK21, A Maize CBL-Interacting Kinase, Enhances Salt Stress Tolerance in Arabidopsis thaliana. International Journal of Molecular Sciences, 15, 14819-14834. (*通讯作者)
9. Lv H.K., Zheng J.*, Wang T.Y., Fu J.J., Huai J.L., Min H.W., Zhang X., Tian B.H., Shi Y.S., Wang G.Y. (2014), The maize d2003, a novel allele of VP8, is required for maize internode elongation. Plant Molecular Biology, 84:243–257 (*并列第一作者)
10. Min H.W., Zheng J.*, Wang J.H. (2014), Maize ZmRAV1 contributes to salt and osmotic stress tolerance in transgenic Arabidopsis, Journal of Plant Biology, 57:28-42. (*并列第一作者)
11. Zheng J., Fu J.J., Gou M.Y., Huai J.L., Liu Y.J., Jian M., Huang Q.S., Gou X.Y., Dong Z.G., Wang H.Z., Wang G.Y. (2010), Genome-wide transcriptome analysis of two maize inbred lines under drought stress. Plant Molecular Biology, 72 (4): 407–21.
12. Zheng J., Zhao JF, Zhang JP Fu JJ, Gou MY, Dong ZG, Hou W, Huang QS, Wang GY. (2006), Comparative expression profiles of maize genes from a water stress specific cDNA macroarray in response to high-salinity, cold or abscisic acid. Plant Science, 170: 1125-1132.
13. Zheng J., Zhao JF, Tao YZ, Wang JH, Liu YJ, Fu JJ, Jin Y, Gao P, Zhang JP, Bai YF, Wang GY. (2004), Isolation and Analysis of Water Stress Induced Genes in Maize Seedlings by Subtractive PCR and cDNA Macroarray. Plant Molecular Biology, 55: 807-823.
14. 王瑞, 陈阳松, 孙明昊, 张秀艳, 杜依聪, 郑军*. 玉米穗发芽突变体vp-like8的遗传分析及突变基因鉴定. 作物学报, 2019, 45(5): 656-661.(*通讯作者)
15. 刘慧, 牟颖熙, 王国英, 郑军*. 玉米卷叶突变体rol1的遗传分析与基因定位. 植物遗传资源学报, 2018,19(5): 937-941.(*通讯作者)
16. 张宁, 李冬冬, 陈阳松, 任蒙蒙, 王瑞, 张凌霄, 郑军*. 玉米苗期耐盐性状的QTL分析. 核农学报, 2018, 32 (8): 1536-1542(*通讯作者)
17. 王瑞,张秀艳,陈阳松,杜依聪,汤继华,王国英,郑军*. 一个新的玉米Vp15基因等位突变体的遗传分析与分子鉴定. 作物学报, 2018, 44(03): 369-375.(*通讯作者)
18. 牟颖熙,刘艳,王国英,郑军*. (2014), 一个玉米旱敏感突变体的遗传分析与基因定位. 植物遗传资源学报, 15(3):615-619(*通讯作者)
19. 吕洪坤,郑军*.(2013),图位克隆技术在玉米基因分离中的应用,分子植物育种,11(3): 460~468 (*通讯作者)
20. 李见坤,郑军*. (2012),玉米Mutator转座子突变体库研究进展,分子植物育种,10(2): 238~244。(*通讯作者)