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丁承强

招收研究生、毕业实习、SRT、导师制学生。

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Email: dingcq*njau.edu.cn (将*替换为@)

QQ: 312723646


研究方向:

       栽培措施调控水稻产量形成的分子机制。

工作经历:

       2022/12 – 至今, 澳门十大正规老牌网赌,澳门十大正规老牌网赌农学系,教授

       2016/12 – 2022/12, 澳门十大正规老牌网赌,澳门十大正规老牌网赌农学系,副教授

       2014/04 – 2016/12,澳门十大正规老牌网赌,澳门十大正规老牌网赌农学系,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,澳门十大正规老牌网赌,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Change the World榜单

       2014年    江苏省优秀博士学位论文

发表论文:

  1. Xun Q., Song Y., Mei M., Ding Y., Ding C., The SMC5/6 complex subunit MMS21 regulates stem cell proliferation in rice. Plant Cell Reports, (2023).

  2. Lu K., Guo Z., Di S., Lu Y., Rehmani M. I. A., Rong C., Ding Y., Li W., Ding C., OsMFT1 inhibits seed germination through modulating abscisic acid signaling and gibberellin biosynthesis under salt stress in rice. Plant and Cell Physiology, (2023).

  3. Liu J., Jie W., Shi X., Ding Y., Ding C., Transcription elongation factors OsSPT4 and OsSPT5 are essential for rice growth and development and act with APO2. Plant Cell Reports, (2023).

  4. Xun Q., Mei M., Song Y., Rong C., Liu J., Zhong T., Ding Y., Ding C., SWI2/SNF2 chromatin remodeling ATPases SPLAYED and BRAHMA control embryo development in rice. Plant Cell Reports 41, 1389-1401 (2022).

  5. Rong C., Liu Y., Chang Z., Liu Z., Ding Y., Ding C., Cytokinin oxidase/dehydrogenase family genes exhibit functional divergence and overlap in rice growth and development, especially in control of tillering. Journal of Experimental Botany 73, 3552-3568 (2022).

  6. Miao Y., Xun Q., Taji T., Tanaka K., Yasuno N., Ding C., Kyozuka J., ABERRANT PANICLE ORGANIZATION2 controls multiple steps in panicle formation through common direct-target genes. Plant Physiology 189, 2210-2226 (2022).

  7. Liu Yuexin, Rong Chenyu, Wang Shi, Wu Lei, Ding Yanfeng, Ding Chengqiang, Absence of 4’ methyl on the d-ring of strigolactone does not prevent inhibition of tillering in rice through activation of the strigolactone signaling pathway. Plant Growth Regulation 98, 499-509 (2022).

  8. Liu J., Shi X., Chang Z., Ding Y., Ding C., Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice (Oryza sativa L.) Panicle Development. Plant and Cell Physiology 63, 305-316 (2022).

  9. Hu Y., Liu J., Lin Y., Xu X., Xia Y., Bai J., Yu Y., Xiao F., Ding Y., Ding C., Chen L., Sucrose nonfermenting-1-related protein kinase 1 regulates sheath-to-panicle transport of nonstructural carbohydrates during rice grain filling. Plant Physiology 189, 1694-1714 (2022).

  10. Chang Z., Xu R., Xun Q., Liu J., Zhong T., Ding Y., Ding C., OsmiR164-targeted OsNAM, a boundary gene, plays important roles in rice leaf and panicle development. Plant Journal 106, 41-55 (2021).

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

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

  13. Ding C. Q., Chang Z. Y., Wang Y., You S. L., Wang S. H., Ding Y. F., Proteomic Analysis Reveals That Developing Leaves are More Sensitive to Nitrogen Fertilizer Than Mature Leaves. Journal of Plant Growth Regulation 37, 426-437 (2018).

  14. 丁承强, 常忠原, 王琰, 王绍华, 丁艳锋, 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 (2017).

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

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

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

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

  19. Ding C., You J., Wang S., Liu Z., Li G., Wang Q., Ding Y., A proteomic approach to analyze nitrogen- and cytokinin-responsive proteins in rice roots. Molecular Biology Reports 39, 1617-1626 (2012).

  20. Ding C. Q., You J., Liu Z. H., Rehmani M. I. A., Wang S. H., Li G. H., Wang Q. S., Ding Y. F., Proteomic Analysis of Low Nitrogen Stress-Responsive Proteins in Roots of Rice. Plant Molecular Biology Reporter 29, 618-625 (2011).

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


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