作者:   时间:2017-12-12  









2022/01--至今, 山东大学,1929cc威尼斯,齐鲁青年特聘教授


2019/07-2020/08Texas A&M University,访问学者





1. 根尖干细胞维持和分化的分子机制

2. 外界逆境胁迫调控植物根的可塑性生长发育的分子机制


1. 2022-2026,山东大学齐鲁青年学者学科建设经费,60万元

2. 2022-2025,国家自然科学基金面上项目,58万元

3. 2021-2023,山东省优秀青年科学基金项目,40万元

4. 2020-2023,国家自然科学基金面上项目,58万元

5. 2019-2021,山东省重点研发计划(公益类科技公关),15万元

6. 2018-2023,山东大学青年学者未来计划,50万元

7. 2016-2018,山东大学基本科研业务费, 10万元

8. 2016-2018,国家自然科学基金青年项目,21.6万元

9. 2014-2016,中国博士后基金特别资助项目,15万元

10. 2013-2015,中国博士后基金面上项目一等资助,8万元


1. Mengyue Zhang, Xiangpei Kong*. How plants discern friends from foes. Trends in Plant Science, 2021, DOI: 10.1016/j.tplants.2021.11.001. (SCI, 5Y-IF: 20.034)

2. Xiangpei Kong#,*, Chunlei Zhang#, Huihui Zheng, Min Sun, Feng Zhang, Mengyue Zhang, Fuhao Cui, Dongping Lv, Lijing Liu, Siyi Guo, Youming Zhang, Xianzheng Yuan, Shan Zhao, Huiyu Tian, Zhaojun Ding*. Antagonistic Interaction between Auxin and SA Signaling Pathways Regulates Bacterial Infection through Lateral Root in Ara

bidopsis. Cell Reports, 2020, 32: 108060. (SCI, 5Y-IF: 10.394)

3. Yuebin Jia#, Xiangpei Kong#, Kongqin Hu, Mengqiang Cao, Jiajia Liu, Changle Ma, Siyi Guo, Xianzheng Yuan, Shan Zhao, Hélène S. Robert, Cuiling Li, Huiyu Tian*, Zhaojun Ding*. PIFs coordinate shade avoidance by inhibiting auxin repressor ARF18 and metabolic regulator QQS. New Phytologist, 2020, 228: 609-621. (SCI, 5Y-IF: 10.475)

4. Xiangpei Kong*, Lahong Xu, Pierce Jamieson. Plant Sense: The Rise of Calcium Channels. Trends in Plant Science, 2020, 25: 838-841. (SCI, 5Y-IF: 20.034)

5. Yang Liu, Jiameng Xu, Siyi Guo, Xianzheng Yuan, Shan Zhao, Huiyu Tian, Shaojun Dai, Xiangpei Kong*, Zhaojun Ding*. AtHB7/12 Regulate Root Growth in Response to Aluminum Stress. International Journal of Molecular Sciences, 2020, 21: 4080. (SCI, 5Y-IF: 6.132)

6. Xiangpei Kong, Huiyu Tian, Qianqian Yu, Feng Zhang, Rong Wang, Shan Gao, Wenhong Xu, Jiajia Liu, Eilon Shani, Chunxiang Fu, Gongke Zhou, Liangran Zhang, Xiansheng Zhang, Zhaojun Ding*. PHB3 maintains root stem cell niche identity through ROS responsive AP2/ERF transcription factors in Arabidopsis. Cell Reports, 2018, 22: 1350-1363. (SCI, 5Y-IF: 10.394)

7. Sha Yang#, Qianqian Yu#, Youming Zhang, Shubo Wan*, Xiangpei Kong*, Zhaojun Ding*. ROS: the fine-tuner of plant stem cell fate. Trends in Plant Science, 2018, 23: 850-853. (SCI, 5Y-IF: 20.034)

8. Xiangpei Kong#,*, Cuiling Li#, Feng Zhang, Qianqian Yu, Shan Gao, Maolin Zhang, Huiyu Tian, Jian Zhang, Xianzheng Yuan, Zhaojun Ding*. Ethylene Promotes Cadmium-induced Root Growth Inhibition through EIN3 controlled XTH33 and LSU1 expression in Arabidopsis. Plant, Cell and Environment, 2018, 41: 2449-2462. (SCI, 5Y-IF: 7.791)

9. Xiangpei Kong#,*, Guangchao Liu#, Jiajia Liu, Zhaojun Ding*. The Root Transition zone: a hot spot for signal crosstalk. Trends in Plant Science, 2018, 23: 403-409. (SCI, 5Y-IF: 20.034)

10. Xiangpei Kong, Liangran Zhang*, Zhaojun Ding*. 26S proteasome: hunter and prey in auxin signaling. Trends in Plant Science, 2016, 21: 546-548. (SCI, 5Y-IF: 20.034)

11. Xiangpei Kong#, Songchong Lu#, Huiyu Tian, Zhaojun Ding*. WOX5 is shining in the root stem cell niche. Trends in Plant Science, 2015, 20: 601-603. (SCI, 5Y-IF: 20.034)

12. Maolin Zhang#, Xiangpei Kong#, Xiangbo Xu, Cuiling Li, Huiyu Tian, Zhaojun Ding*. Comparative transcriptome profiling of the maize primary, crown and seminal root in response to salinity stress. PLoS ONE, 2015, 10: e0121222. (SCI, 5Y-IF: 3.788)

13. Xiangpei Kong, Maolin Zhang, Ive De Smet, Zhaojun Ding*. Designer crops: optimal root system architecture for nutrient acquisition. Trends in Biotechnology, 2014, 32: 597-598. (SCI, 5Y-IF: 19.599)

14. Xiangpei Kong, Maolin Zhang, Xiangbo Xu, Xiaoming Li, Cuiling Li, Zhaojun Ding*. System analysis of MicroRNAs in the development and aluminium-stress responses of the maize root system. Plant Biotechnology Journal, 2014, 12: 1108-1121. (SCI, 5Y-IF: 9.555)

15. Xiangpei Kong, Maolin Zhang, Zhaojun Ding*. D53: the missing link in strigolactone signaling. Molecular Plant, 2014, 7: 761-763. (SCI, 5Y-IF: 16.357)

16. Xuejing Wen, Tiantian Niu, Xiangpei Kong*. In Silico analysis of PHB gene family in maize. Plant Growth Regulation, 2014, 73: 181-191. (SCI, 5Y-IF: 3.691)

17. Xiangpei Kong#, Wei Lv#, Shanshan Jiang, Dan Zhang, Guohua Cai, Jiaowen Pan, Dequan Li*. Genome-wide identification and expression analysis of Calcium-Dependent Protein Kinase (CDPK) in maize. BMC Genomics, 2013, 14: 433. (SCI, 5Y-IF: 4.478)

18. Xiangpei Kong, Wei Lv, Dan Zhang, Shanshan Jiang, Shizhong Zhang, Dequan Li*. Genome-wide identification and analysis of expression profiles of maize Mitogen-Activated Protein Kinase Kinase Kinase. PLoS ONE, 2013, 8: e57714. (SCI, 5Y-IF: 3.788)

19. Xiangpei Kong#, Jiaowen Pan#, Dan Zhang, Shanshan Jiang, Guohua Cai, Li Wang, Dequan Li*. Identification of Mitogen-Activated Protein Kinase Kinase gene family and MKK-MAPK interaction network in maize. Biochemical and Biophysical Research Communications, 2013, 441: 964-969. (SCI, 5Y-IF: 3.381)

20. Xiangpei Kong, Dan Zhang, Jiaowen Pan, Yan Zhou, Dequan Li*. Hydrogen peroxide is involved in nitric oxide-induced cell death in maize leaves. Plant Biology, 2013, 15: 53–59. (SCI, 5Y-IF: 2.972)

21. Xiangpei Kong, Jiaowen Pan, Guohua Cai, Dequan Li*. Recent insights into brassinosteroids signaling in plants: Its dual control of plant Immunity and stomatal development. Molecular Plant, 2012, 5: 1179-1181. (SCI, 5Y-IF: 16.357)

22. Xiangpei Kong, Jiaowen Pan, Maoying Zhang, Xin Xing, Yan Zhou, Yang Liu, Dapeng Li, Dequan Li*. ZmMKK4, a novel group C MAPK kinase in maize (Zea mays), confers salt and cold tolerance in transgenic Arabidopsis. Plant, Cell and Environment, 2011, 34: 1291-1303. (SCI, 5Y-IF: 7.791)

23. Xiangpei Kong, Liping Sun, Yan Zhou, Maoying Zhang, Yang Liu, Jiaowen Pan, Dequan Li*. ZmMKK4 regulates osmotic stress through reactive oxygen species scavenging in transgenic tobacco. Plant Cell Reports, 2011, 30: 2097-2104. (SCI, 5Y-IF: 3.686)

24. Xiangpei Kong, Dequan Li*. Hydrogen peroxide is not involved in HrpN from Erwinia amylovora-induced hypersensitive cell death in maize leaves. Plant Cell Reports, 2011, 30: 1273-279. (SCI, 5Y-IF: 4.463)

25. Tao Wu#, Xiangpei Kong#, Xiaojuan Zong, Dapeng Li, Dequan Li*. Expression analysis of five maize MAP Kinase genes in response to various abiotic stresses and signal molecules. Molecular Biology Reports, 2011, 38: 3967-3975. (SCI, 5Y-IF: 2.357)


1. Xiangpei Kong, Huiyu Tian, Zhaojun Ding*. Plant Hormone Signaling Mediates Plant Growth Plasticity in Response to Metal Stress. Mechanism of Plant Hormone Signaling under Stress, 2017, 223-235 (Wiley Published)


1. Nikonorova, N., Murphy, E., de Lima, C.F.F., Zhu, S., van de Cotte, B., Vu, L.D., Balcerowicz, D., Li, L., Kong, X., De Rop, G., Beeckman, T., Friml, J., Vissenberg, K., Morris, P.C., Ding, Z., De Smet, I. The arabidopsis root tip (Phospho)proteomes at growth-promoting versus growth-repressing conditions reveal novel root growth regulators. Cells, 2021, 10: 1665.

2. Ding, T., Zhang, F., Wang, J., Wang, F., Liu, J., Xie, C., Hu, Y., Shani, E., Kong, X., Ding, Z., Tian, H. Cell-type action specificity of auxin on Arabidopsis root growth. Plant Journal, 2021, 106: 928-941.

3. Lv, B., Zhu, J., Kong, X., Ding, Z. Light participates in the auxin-dependent regulation of plant growth. Journal of Integrative Plant Biology, 2021, 63: 819-822.

4. Sun, X.-D., Yuan, X.-Z., Jia, Y., Feng, L.-J., Zhu, F.-P., Dong, S.-S., Liu, J., Kong, X., Tian, H., Duan, J.-L., Ding, Z., Wang, S.-G., Xing, B. Differentially charged nanoplastics demonstrate distinct accumulation in Arabidopsis thaliana. Nature Nanotechnology, 2020, 15: 755-760.

5. Zhang, F., Tao, W., Sun, R., Wang, J., Li, C., Kong, X., Tian, H., Ding, Z. PRH1 mediates ARF7-LBD dependent auxin signaling to regulate lateral root development in Arabidopsis thaliana. PLoS genetics, 2020, 16: e1008044.

6. Lv, B., Yu, Q., Liu, J., Wen, X., Yan, Z., Hu, K., Li, H., Kong, X., Li, C., Tian, H., De Smet, I., Zhang, X.-S., Ding, Z. Non-canonical AUX/IAA protein IAA33 competes with canonical AUX/IAA repressor IAA5 to negatively regulate auxin signaling. EMBO Journal, 2020, 39: e101515.

7. Cui, F., Sun, W., Kong, X. RLCKs Bridge Plant Immune Receptors and MAPK Cascades. Trends in Plant Science, 2018, 23: 1039-1041.

8. Sun, Y., Mu, C., Chen, Y., Kong, X., Xu, Y., Zheng, H., Zhang, H., Wang, Q., Xue, Y., Li, Z., Ding, Z., Liu, X. Comparative transcript profiling of maize inbreds in response to long-term phosphorus deficiency stress. Plant Physiology and Biochemistry, 2016, 109: 467-481.

9. Sun, Y., Kong, X., Li, C., Liu, Y., Ding, Z. Potassium retention under salt stress is associated with natural variation in salinity tolerance among arabidopsis accessions. PLoS ONE, 2015, 10: e0124032.

10. Zhang, D., Jiang, S., Pan, J., Kong, X., Zhou, Y., Liu, Y., Li, D. The overexpression of a maize mitogen-activated protein kinase gene (ZmMPK5) confers salt stress tolerance and induces defence responses in tobacco. Plant Biology, 2014, 16: 558-570.

11. Jiang, S., Zhang, D., Wang, L., Pan, J., Liu, Y., Kong, X., Zhou, Y., Li, D. A maize calcium-dependent protein kinase gene, ZmCPK4, positively regulated abscisic acid signaling and enhanced drought stress tolerance in transgenic Arabidopsis. Plant Physiology and Biochemistry, 2013, 71: 112-120.

12. Liu, Y., Wang, L., Xing, X., Sun, L., Pan, J., Kong, X., Zhang, M., Li, D. ZmLEA3, a multifunctional group 3 LEA protein from maize (Zea mays L.), is involved in biotic and abiotic stresses. Plant and Cell Physiology, 2013, 54: 944-959.

13. Zhang, M., Pan, J., Kong, X., Zhou, Y., Liu, Y., Sun, L., Li, D. ZmMKK3, a novel maize group B mitogen-activated protein kinase kinase gene, mediates osmotic stress and ABA signal responses. Journal of Plant Physiology, 2012, 169: 1501-1510.

14. Zhou, Y., Zhang, D., Pan, J., Kong, X., Liu, Y., Sun, L., Wang, L., Li, D. Overexpression of a multiple stress-responsive gene, ZmMPK4, enhances tolerance to low temperature in transgenic tobacco. Plant Physiology and Biochemistry, 2012, 58: 174-181.

15. Sun, L., Liu, Y., Kong, X., Zhang, D., Pan, J., Zhou, Y., Wang, L., Li, D., Yang, X. ZmHSP16.9, a cytosolic class I small heat shock protein in maize (Zea mays), confers heat tolerance in transgenic tobacco. Plant Cell Reports, 2012, 31: 1473-1484.

16. Pan, J., Zhang, M., Kong, X., Xing, X., Liu, Y., Zhou, Y., Liu, Y., Sun, L., Li, D. ZmMPK17, a novel maize group D MAP kinase gene, is involved in multiple stress responses. Planta, 2012, 235: 661-676.

17. Xing, X., Liu, Y., Kong, X., Liu, Y., Li, D. Overexpression of a maize dehydrin gene, ZmDHN2b, in tobacco enhances tolerance to low temperature. Plant Growth Regulation, 2011, 65: 109-118.

18. Hu, X., Liu, L., Xiao, B., Li, D., Xing, X., Kong, X., Li, D. Enhanced tolerance to low temperature in tobacco by over-expression of a new maize protein phosphatase 2C, ZmPP2C2. Journal of Plant Physiology, 2010, 167: 1307-1315.

19. Liu, Y., Kong, X., Pan, J., Li, D. VIP1: Linking Agrobacterium-mediated transformation to plant immunity? Plant Cell Reports, 2010, 29: 805-812.


1. 2020年山东省农业科学院科学技术一等奖(第七位)



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