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丁承强

姓名:丁承强

研究领域:栽培环境影响水稻产量形成的分子机制

Email:dingcq (@) 71see.com


研究方向:

栽培措施对水稻产量形成的分子调控机制;调节水稻生长发育的新技术研发。

研究简介:

全球人口的不断增长对粮食产量提出了更高的要求,同时人类工业活动引起的气候变化造成极端气候频发,威胁到粮食的高产稳产。在粮食生产过程中,作物的生长环境和栽培措施对产量影响巨大。这就要求我们对产量形成过程中环境的作用机理进行更加深入的研究。理解环境与作物生长发育的关系,有助于在复杂多变的环境下通过创新栽培措施增加作物产量。目前,我们以水稻为研究对象,使用生理生化和分子生物学等技术手段开展研究。试图揭示环境影响水稻产量形成的分子机制,找寻可供栽培调控利用的靶点蛋白质。通过我们的研究为今后设计筛选具有调控水稻生长发育活性的小分子化合物提供理论基础。并以此开发新的生长调节剂应用于水稻生产。

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

2011/09 – 2012/09,东京大学,栽培学研究室,访问学生

2003/09 – 2007/07,山东农业大学,草业科学系,学士

获得荣誉:

2014年获得江苏省优秀博士学位论文

2008年获得山东农业大学二〇〇七届优秀学士学位论文

发表论文:

Wang, Y., Lu, Y.Y., Chang, Z.Y., Wang, S.H., Ding, Y.F., Ding, C.Q. (2018). Transcriptomic analysis of field-grown rice (Oryza sativa L.) reveals responses to shade stress in reproductive stage. Plant Growth Regul. DOI: 10.1007/s10725-017-0363-3 (通讯作者)

Ding, C.Q., Chang, Z., Wang, Y., You, S., Wang, S., and Ding, Y. (2017). Proteomic Analysis Reveals That Developing Leaves are More Sensitive to Nitrogen Fertilizer Than Mature Leaves. J. Plant Growth Regul. DOI: 10.1007/s00344-017-9743-1

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.Q., Wang, Y., Chang, Z.Y., You, S.L., Liu, Z.H., Wang, S.H., and Ding, Y.F. (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.Q., Wang, Y., You, S.L., Liu, Z.H., Wang, S.H., and Ding, Y.F. (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.

Chen, L., Ding, C.Q., Zhao, X.F., Xu, J.X., Mohammad, A.A., Wang, S.H., and Ding, Y.F. (2015). Differential regulation of proteins in rice (Oryza sativa L.) under iron deficiency. Plant Cell Rep. 34, 83-96.

Xu, J.X., Ding, C.Q., Ding, Y.F., Tang, S., Zha, M.R., Luo, B.J., and Wang, S.H. (2015). A Proteomic Approach to Analyze Differential Regulation of Proteins During Bud Outgrowth Under Apical Dominance Based on the Auxin Transport Canalization Model in Rice (Oryza sativa L.). J. Plant Growth Regul. 34, 122-136.

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

Xiong, J., Ding, C.Q., Wei, G.B., Ding, Y.F., and Wang, S.H. (2013). Characteristic of Dry-Matter Accumulation and Nitrogen-Uptake of Super-High-Yielding Early Rice in China. Agron. J. 105, 1142-1150.

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

Zhao, X.F., Ding, C.Q., Chen, L., Wang, S.H., Wang, Q.S., and Ding, Y.F. (2012). Comparative proteomic analysis of the effects of nitric oxide on alleviating Cd-induced toxicity in rice (Oryza sativa L.). Plant Omics 5, 604-614.

Ding, C.Q., You, J., Liu, Z.H., Rehmani, M.I.A., Wang, S.H., Li, G.H., Wang, Q.S., and Ding, Y.F. (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.