工作经历：

2016/12 – 至今， 南京农业大学，农学院农学系，副教授

2014/04 – 2016/12，南京农业大学，农学院农学系，讲师

2013/01 – 2013/12，东京大学，栽培学研究室，博士后

教育经历：

2007/09 – 2012/12，南京农业大学，作物栽培学与耕作学，博士

其中：2011/09 – 2012/09，东京大学，栽培学研究室，联合培养

2003/09 – 2007/07，山东农业大学，草业科学系，学士

获得荣誉：

2021年 神农中华农业科技奖优秀创新团队

2020年 江苏省科学技术奖一等奖

2016年 论文入选Springer Nature 2016年“改变世界，每刊一篇”榜单

2014年 江苏省优秀博士学位论文

2008年 山东农业大学二〇〇七届优秀学士学位论文

水稻顶端分生组织的维持和分化；栽培措施调控水稻产量形成的分子机制；移栽损伤的组织再生与修复

Xun Q, Mei M, Song Y, Rong C, Liu J, Zhong T, Ding Y, Ding C* (2022) SWI2/SNF2 chromatin remodeling ATPases SPLAYED and BRAHMA control embryo development in rice. Plant Cell Rep, doi: 10.1007/s00299-022-02864-z.

Miao Y, Xun Q, Taji T, Tanaka K, Yasuno N, Ding, C*, Kyozuka J* (2022) ABERRANT PANICLE ORGANIZATION2 controls multiple steps in panicle formation through common direct-target genes. Plant Physiol, doi: 10.1093/plphys/kiac216.

Hu Y, Liu J, Lin Y, Xu X, Xia Y, Bai J, Yu Y, Xiao F, Ding Y, Ding C*, Chen L* (2022) Sucrose non-fermenting-1-related protein kinase 1 regulates sheath-to-panicle transport of non-structural carbohydrates during rice grain filling. Plant Physiol, doi: 10.1093/plphys/kiac124.

Rong C, Liu Y, Chang Z, Liu Z, Ding Y, Ding C* (2022) Cytokinin oxidase/dehydrogenase family genes exhibit functional divergence and overlap in rice growth and development, especially in control of tillering. J Exp Bot, doi: 10.1093/jxb/erac088.

Liu J, Shi Xi, Chang Z, Ding Y, Ding C* (2021) Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice (Oryza sativa L.) Panicle Development. Plant and Cell Physiology, doi: 10.1093/pcp/pcab172.

Chang Z, Xu R, Xun Q, Liu J, Zhong T, Ding Y, Ding C* (2021) OsmiR164-targeted OsNAM, a boundary gene, plays important roles in rice leaf and panicle development. The Plant Journal, 1, 41-55.

Wang Y, Lu Y, Guo Z, Ding Y, Ding C* (2020) RICE CENTRORADIALIS 1, a TFL1-like Gene, Responses to Drought Stress and Regulates Rice Flowering Transition. Rice, 13, 70.

Wang Y, Lu Y, Chang Z, Wang S, Ding Y, Ding C* (2018) Transcriptomic analysis of field-grown rice (Oryza sativa L.) reveals responses to shade stress in reproductive stage. Plant Growth Regul., 84, 583-592.

Ding C, Chang ZY, Wang Y, You S, Wang S, Ding Y (2018) Proteomic Analysis Reveals That Developing Leaves are More Sensitive to Nitrogen Fertilizer Than Mature Leaves. J Plant Growth Regul., 37, 426-437.

丁承强, 常忠原, 王琰, 王绍华, 丁艳锋 (2017) 应用SELEX技术检测水稻RFL转录因子的DNA结合位点. 植物学报, 52, 70-76.

Ding C, Wang Y, Chang Z, You S, Liu Z, Wang S, Ding Y (2016) Comparative Proteomic Analysis Reveals Nitrogen Fertilizer Increases Spikelet Number per Panicle in Rice by Repressing Protein Degradation and 14-3-3 Proteins. J Plant Growth Regul., 35, 744-754.

Ding C, Wang Y, You S, Liu Z, Wang S, Ding Y (2016) Digital gene expression analysis reveals nitrogen fertilizer increases panicle size by repressing Hd3a signaling in rice. Plant Growth Regul., 79, 47-54.

丁承强, 王绍华, 丁艳锋 (2016) 水稻穗发育功能基因对穗期氮肥的响应. 植物学报, 51, 488-495.

Ding C, You J, Chen L, Wang S, Ding Y (2014) Nitrogen fertilizer increases spikelet number per panicle by enhancing cytokinin synthesis in rice. Plant Cell Rep., 33, 363-371.

Ding C, You J, Wang SH, Liu Z, Li G, Wang Q, Ding Y (2012) A proteomic approach to analyze nitrogen- and cytokinin-responsive proteins in rice roots. Mol. Biol. Rep., 39, 1617-1626.

Ding C, You J, Liu Z, Rehmani MIA, Wang S, Li G, Wang Q, Ding Y (2011) Proteomic Analysis of Low Nitrogen Stress-Responsive Proteins in Roots of Rice. Plant Mol. Biol. Report., 29, 618-625.

丁承强, 马丹, 王绍华, 丁艳锋 (2011) 水稻蛋白质组双向电泳优化流程及方法. 植物学报, 1, 67-73.