教授

山东农业大学园艺科学与工程学院

泰安，山东271018

邮箱：zbao@sdau.edu.cn

教育与科研经历

2018-至今  教授，园艺学，山东农业大学

2015-2017     研究助理教授，Horticultural Sciences，University of Florida

2013-2015     博士后，Plant Pathology，Boyce Thompson Institute

2009-2013     博士，Plant Biology，Cornell University

2007-2009     访问学生，Plant Biology，Cornell University

2006-2007     博士研究生，植物学，香港大学

2003-2005     硕士，植物病理学，南京农业大学

1999-2003     学士，生物技术，南京农业大学

科研简介

主要研究蔬菜病害生物学及抗病育种，以茄果类蔬菜作物为研究对象，围绕细胞周期调控的重新编程，研究病害影响蔬菜生长发育的分子机制。发掘病原物致病因子和蔬菜抗性相关基因，阐明蔬菜作物病害症状产生的原因及抗病机制，培育抗性品种，开发绿色防控措施。目前在Cell Host & Microbe、PNAS、Nature Communications和Molecular Plant等国际期刊发表论文近60篇，以第一完成人获中国发明专利4项。

教学内容

1. 主讲本科生课程《园艺植物育种学2》

2. 主讲研究生课程《蔬菜种质资源学》、《园艺种质资源与利用》

编写教材

1. 参编农业农村部第二批“十四五”规划教材《园艺实验技术》

2. 参编“十三五”普通高等教育研究生规划教材《植物分子免疫学》

3. 参编首批农业农村部“十四五”规划教材《植物病理学研究法》

4. 参编英文著作《Growth Regulation and Quality Improvement of Vegetable Crops》

主持科研项目

国家自然科学基金面上项目

农业科技重大项目子课题

山东省重点研发计划（农业良种工程）

泰安市农业良种项目

奖励

1. 2023年山东农业大学“优秀研究生指导教师”

2. 2020年山东农业大学“学习标兵”

3. 2019年山东农业大学“青年岗位能手标兵”

4. 2018年山东省泰山学者青年专家

授权专利

1. 包志龙;马方放; 刘根忠; 李佳琦; 陈春燕; 王歌; 张鹏; 房栋; 刘颖; 李佳; 一种抑制番茄茎基腐病的中草药黄柏制剂及其使用方法, 2024-10-22, 中国, CN202411474764.4

2. 包志龙;马方放; 刘根忠; 马明轩; 一种促进番茄植株生长的中草药黄芩制剂及其使用方法, 2022-08-12, 中国, 202210971906.2

3. 包志龙;马方放; 刘根忠; 马明轩; 一种促进番茄植株生长的中草药大黄制剂及其使用方法, 2022-08-12,中国, 202210969094.8

4. 包志龙;马方放; 王歌; 张鹏; 张久成; 马迪; 一种针对植物样品的细胞溶液过滤器, 2022-12-29, 中国, 202223598253.2

发表论文（#通讯作者，*第一作者）

2026年

1. Chen, C., Guo, H., Chen, L., Zhu, J., Liu, S., He, J., Zhang, Q., Ma, F.^#, and Bao, Z.^# (2026). Tomato sucrose transporter 2 facilitates pseudomonas syringae proliferation via stimulating sugar efflux and repressing salicylic acid biosynthesis. Plant Physiology, Accepted

2. Wang, G.^*, Bian, Y.^*, Liu, S.^*, Sun, F.^*, Niu, C., Zhang, P., Qin, X., Zhang, J., Gao, W., Ma, F.^#, and Bao, Z.^# (2026). Genomic integration of tomato chlorosis virus with less virulent tobacco rattle virus facilitates the direct infection on tomato.Plant Physiology, Accepted

3. Liu, G.^*，#, Liu, X.^*, Fan, J., Li, C., Zheng, W., Ma, F., and Bao, Z.^# (2026). The cyclin-dependent kinase inhibitor SlKRP3 negatively regulates plant height and fruit shape in tomato via inhibiting cell elongation. Journal of Plant Physiology 317, 154694.

2025年

4. Chen, C., Ye, J., Zhao, K., Hao, M., Ma, F.^#, and Bao, Z.^# (2025). Pseudomonas syringae infection causes metabolic changes in tomato leaves. Plant Physiology and Biochemistry 229, 110521.

5. Liu, G.^*, Feng, H.^*, Fan, J.^*, Liu, Y., Wang, N., Li, C., Song, S., Zhou, Q., Zhao, L., Sun, X., Wang, J., Ma, F., and Bao, Z.^# (2025). Genetic diversity analysis of pepper (Capsicum annuum L.) germplasm resources based on the phenotypic traits. Horticulture Advances 3, 27.

6. Ma, F., and Bao, Z.^# (2025). RBRL co-opts NINJA for plant defense. Cell Host & Microbe 33, 612-614.

7. Sun, F.^*, Wang, Y.^*, Zhang, T., Liu, B., Bao, Z.^#, and Ma, F.^# (2025). Establishment of Lily Bulb Scale Cutting Propagation System Promoted by Exogenous Plant Growth Regulators and Evaluation of Lily Cultivar Quality. Journal of Plant Growth Regulation 44, 5380-5399.

8. Wang, G., Zhang, J., Zhang, X., Ma, D., Tian, M., Chen, C., He, J., Bao, Z.^#, and Ma, F.^# (2025a). An efficient Agrobacterium-mediated transient expression system in tomato leaflets. Horticultural Plant Journal 11, 1703-1706.

9. Wang, G., Zhang, P., Wang, Y., Zhang, X., Ma, D., Liu, G., Bao, Z.^#, and Ma, F.^# (2025b). Identification and functional characterization of anaphase-promoting complex/cyclosome subunits in tomato. Horticultural Plant Journal.

10. Wang, Y.^*, Sun, F.^*, Bao, Z.^#, and Ma, F.^# (2025c). WEE1 homolog positively regulates salt stress tolerance in chrysanthemum. Journal of Plant Physiology 311, 154550.

11. Wang, Y., Wang, Z., Liu, S., Deng, J., Wang, G., Ma, F.^#, and Bao, Z.^# (2025d). Alternaria radicina xylanase is required for the occurrence of carrot black rot disease. Plant Science 359, 112582.

12. Zhang, P.^*, Duan, T.^*, Li, Q., Huang, L., Liu, Z., Li, J., Bao, Z.^#, and Ma, F.^# (2025a). Full-length transcriptome sequencing provides insights into chlorogenic acid biosynthesis in Lonicera japonica. Ornamental Plant Research 5.

13. Zhang, X.^*, Wang, G.^*, Zhang, P.^*, Chen, C.^*, Zhang, J., Bian, Y., Liu, M., Niu, C., Sun, F., Wang, Y., Liu, G., Wang, Z., Ma, F.^#, and Bao, Z.^# (2025b). Plant cell-cycle regulators control the nuclear environment for viral pathogenesis. Cell Host & Microbe 33, 420-435.e414.

2024年

14. Bian, Y.^*, Zhang, X.^*, Chen, C., Wang, G., Zhang, P., Liu, G., Ma, F.^#, and Bao, Z.^# (2024). Establish an efficient inoculation system of tomato yellow leaf curl virus to assist tomato resistance breeding. Scientia Horticulturae 324, 112567.

15. Li, Y., Zhang, P., Wang, G., Zhao, W., Bao, Z.^#, and Ma, F.^# (2024). FvUVI4 inhibits cell division and cell expansion to modulate fruit development in Fragaria vesca. Plant Physiol Biochem 213, 108804.

16. Liu, G.^*, Xin, J.^*, Li, C., Ma, M., Fan, J., Xu, C., Li, J., Fang, D., Ma, F.^#, and Bao, Z.^# (2024). Scutellaria baicalensis Georgi extracts and its active compound baicalin promote tomato seedling growth. Vegetable Research 4.

17. Song, J., Yan, J., Sun, B., Chen, B., Zhu, X., Wei, H., Bao, Z., Ma, F., Zhang, W.^#, and Yang, H.^# (2024). Abscisic acid regulates Cl− efflux via the ABI5-ZAT10-SLAH3 module in chloride-stressed Malus hupehensis. Horticulture Research 11.

18. Sun, F., Wang, Y., Liu, G., Fang, D., Sun, M., Bao, Z.^#, and Ma, F.^# (2024). Salt stress induces SFT expression to promote early flowering and inhibits floral organ development by disturbing cell cycle in tomato. Vegetable Research 4.

19. Zhang, J., Du, M., Liu, G., Ma, F.^#, and Bao, Z.^# (2024a). Lignin Sulfonate-Chelated Calcium Improves Tomato Plant Development and Fruit Quality by Promoting Ca2+ Uptake and Transport. Horticulturae 10, 1328.

20. Zhang, P., Wang, Y., Wang, Z., Di, S., Zhang, X., Ma, D., Bao, Z.^#, and Ma, F.^# (2024b). Chrysanthemum lavandulifolium homolog CYCLIN A2;1 modulates cell division in ray florets. J Exp Bot 75, 6423-6440.

2023年

21. Chen, C.^*, Ma, M.^*, Liu, G., Ma, F., and Bao, Z.^# (2023). The fungal pathogen Fusarium solani poses an increasing threat to tomato production in Northern China. New Zealand Journal of Crop and Horticultural Science, 1-15.

22. Liu, M.^*, Liu, G.^*, Wang, G.^*, Song, S., Zhang, P., Liu, X., Li, Y., Mao, X.^#, Bao, Z.^#, and Ma, F.^# (2023a). Identification and functional characterization of AcMYB113 in anthocyanin metabolism of Aesculus chinensis Bunge var. chinensis leaves. Plant Physiology and Biochemistry 199, 107709.

23. Liu, M.^*, Wang, G.^*, Liu, G., Ma, F.^#, and Bao, Z.^#(2023b). Biostimulants Promote the Sedimentation of Salts to Restore Tomato Plant Growth Under Salt Stress. Journal of Soil Science and Plant Nutrition.

24. Xu, C.^*, Ma, M.^*, Xin, J.^*, Li, J., Ma, F., Fang, D., Liu, G.^#, and Bao, Z.^# (2023). The active compound in Rheum officinale Baill, aloe-emodin promotes tomato seedling growth. Plant Growth Regulation.

25. Yang, Z.^*, Zhu, Y.^*, Zhang, X., Zhang, H., Zhang, X., Liu, G., Zhao, Q.^#, Bao, Z.^#, and Ma, F.^# (2023). Volatile secondary metabolome and transcriptome analysis reveals distinct regulation mechanism of aroma biosynthesis in Syringa oblata and S. vulgaris. Plant Physiol Biochem 196, 965-973.

26. Zhang, J., Zhang, P., Wang, G., Chen, C., Wang, X., Liu, G., Ma, F.^#, and Bao, Z.^# (2023). Determination of nuclear DNA ploidy distribution in the mesocarp of tomato red ripe fruit using a flow cytometer. Vegetable Research 3, 1-9.

27. Zhao, W., Li, Y., Liu, G., Bao, Z.^#, and Ma, F.^# (2023). FvCYCA1 participates in the petal development of Fragaria vesca. Scientia Horticulturae 321, 112355.

2022年

28. Di, S.^*, Zhang, P.^*, Zhang, J., Liu, G., Wang, G., Shi, Q., Ma, F., and Bao, Z.^# (2022). Tomato UVI4 homologue modulates cell expansion to participate heat-stimulated hypocotyl elongation. Environmental and Experimental Botany 201, 104963.

29. Du, M., Zhang, P., Wang, G., Zhang, X., Zhang, W., Yang, H., Bao, Z.^#, and Ma, F.^# (2022). H2S improves salt-stress recovery via organic acid turn-over in apple seedlings. Plant, Cell & Environment 45, 2923-2942.

30. Guo, H., Wang, G., Zhang, P., Wang, G., Bao, Z., and Ma, F.^# (2022). Ammonium and nitrate impact petal color traits and amino acid profiles differently in Petunia. Ornamental Plant Research 2, 1-11.

31. Liu, G.^*, Li, Y.^*, Sun, X., Guo, X., Jiang, N., Fang, Y., Chen, J.^#, Bao, Z.^#, and Ma, F.^# (2022). Association study of SNP locus for color related traits in herbaceous peony (Paeonia lactiflora Pall.) using SLAF-seq. Frontiers in Plant Science 13.

32. Niu, C., Wang, G., Sui, J., Liu, G., Ma, F.^#, and Bao, Z.^# (2022). Biostimulants alleviate temperature stress in tomato seedlings. Scientia Horticulturae 293, 110712.

33. Song, S.^*, Liu, G.^*, Ma, F.^#, and Bao, Z.^# (2022). Brassinazole represses tomato hypocotyl elongation via inhibition of cell division. Plant Growth Regulation 96, 463-472.

34. Wang, G.^*, Liu, M.^*, Liu, G., Bao, Z.^#, and Ma, F.^# (2022). Establishment and optimization of agrobacterium-mediated transformation in blueberry (Vaccinium species). Scientia Horticulturae 304, 111258.

35. Zhang, X., Zhang, P., Wang, G., Bao, Z.^#, and Ma, F.^# (2022). Chrysanthemum lavandulifolium homolog ClMAD1 modulates the floral transition during temperature shift. Environmental and Experimental Botany 194, 104720.

2021年

36. Zhang, R., Xu, C., Bao, Z., Xiao, R., Chen, X., Xiao, W., Li, D., Fu, X., Yang, C.^#, and Li, L.^# (2021). Auxin alters sodium ion accumulation and nutrient accumulation by playing protective role in salinity challenged strawberry. Plant Physiology and Biochemistry 164, 1-9.

2020年

37. Dong, C., Wang, G., Du, M., Niu, C., Zhang, P., Zhang, X., Ma, D., Ma, F.^#, and Bao, Z.^# (2020). Biostimulants promote plant vigor of tomato and strawberry after transplanting. Scientia Horticulturae 267, 109355.

38. Zhang, X., Bao, Z., Gong, B.^#, and Shi, Q.^# (2020a). S-adenosylmethionine synthetase 1 confers drought and salt tolerance in transgenic tomato. Environmental and Experimental Botany 179, 104226.

39. Zhang, X.^*, Tang, H.^*, Du, H.^*, Bao, Z., and Shi, Q.^# (2020b). Sugar metabolic and N-glycosylated profiles unveil the regulatory mechanism of tomato quality under salt stress. Environmental and Experimental Botany 177, 104145.

40. Zhang, X.^*, Tang, H.^*, Du, H., Liu, Z., Bao, Z., and Shi, Q.^# (2020c). Comparative N-glycoproteome analysis provides novel insights into the regulation mechanism in tomato (solanum lycopersicum L.) During fruit ripening process. Plant Science 293, 110413.

2019年

41. Dong, F., Wang, C., Sun, X., Bao, Z., Dong, C., Sun, C., Ren, Y., and Liu, S.^# (2019). Sugar metabolic changes in protein expression associated with different light quality combinations in tomato fruit. Plant Growth Regulation 88, 267-282.

42. Shuipys, T., Carvalho, R.F., Clancy, M.A., Bao, Z., and Folta, K.M.^# (2019). A synthetic peptide encoded by a random DNA sequence inhibits discrete red light responses. Plant Direct 3, e00170.

2018年以前

43. Zhang, N., Wang, Z., Bao, Z., Yang, L., Wu, D., Shu, X., and Hua, J.^# (2018). MOS 1 functions closely with TCP transcription factors to modulate immunity and cell cycle in Arabidopsis. The Plant Journal 93, 66-78.

44. Bao, Z., Clancy, M.A., Carvalho, R.F., Elliott, K., and Folta, K.M.^# (2017). Identification of novel growth regulators in plant populations expressing random peptides. Plant physiology 175, 619-627.

45. Pillet, J., Chambers, A.H., Barbey, C., Bao, Z., Plotto, A., Bai, J., Schwieterman, M., Johnson, T., Harrison, B., Whitaker, V.M., Colquhoun, T.A., and Folta, K.M.^# (2017). Identification of a methyltransferase catalyzing the final step of methyl anthranilate synthesis in cultivated strawberry. BMC plant biology 17, 1-12.

46. Hind, S.R., Strickler, S.R., Boyle, P.C., Dunham, D.M., Bao, Z., O'Doherty, I.M., Baccile, J.A., Hoki, J.S., Viox, E.G., Clarke, C.R., Vinatzer B.A., Schroeder F.C., and Martin, G.B.^# (2016). Tomato receptor FLAGELLIN-SENSING 3 binds flgII-28 and activates the plant immune system. Nature plants 2, 1-8.

47. Bao, Z., and Hua, J. ^# (2015). Linking the cell cycle with innate immunity in Arabidopsis. Molecular plant 8, 980-982.

48. Bao, Z.^*, Meng, F.^*, Strickler, S.R.^*, Dunham, D.M., Munkvold, K.R., and Martin, G.B.^# (2015). Identification of a candidate gene in Solanum habrochaites for resistance to a race 1 strain of Pseudomonas syringae pv. tomato. The plant genome 8, plantgenome2015.2002.0006.

49. Bao, Z., and Hua, J.^# (2014). Interaction of CPR5 with cell cycle regulators UVI4 and OSD1 in Arabidopsis. PLoS One 9, e100347.

50. Bao, Z., Zhang, N., and Hua, J.^# (2014). Endopolyploidization and flowering time are antagonistically regulated by checkpoint component MAD1 and immunity modulator MOS1. Nature communications 5, 1-10.

51. Bao, Z.^*, Yang, H.^*, and Hua, J.^# (2013). Perturbation of cell cycle regulation triggers plant immune response via activation of disease resistance genes. Proc Natl Acad Sci U S A 110, 2407-2412.

52. Gou, M., Shi, Z., Zhu, Y., Bao, Z., Wang, G., and Hua, J.^# (2012). The F‐box protein CPR1/CPR30 negatively regulates R protein SNC1 accumulation. The Plant Journal 69, 411-420.

53. Wang, Y., Bao, Z., Zhu, Y., and Hua, J.^# (2009). Analysis of temperature modulation of plant defense against biotrophic microbes. Molecular Plant-Microbe Interactions 22, 498-506.

54. Ren, X.^*, Liu, F.^*, Bao, Z., Zhang, C., Wu, X., Chen, L., Liu, R., and Dong, H.^# (2008). Root growth of Arabidopsis thaliana is regulated by ethylene and abscisic acid signaling interaction in response to HrpNEa, a bacterial protein of harpin group. Plant Molecular Biology Reporter 26, 225-240.

55. Zhang, C., Qian, J., Bao, Z., Hong, X., and Dong, H.^# (2007). The induction of abscisic-acid-mediated drought tolerance is independent of ethylene signaling in Arabidopsis plants responding to a harpin protein. Plant Molecular Biology Reporter 25, 98-114.

56. Dong, H.-P.^*, Yu, H.^*, Bao, Z., Guo, X., Peng, J., Yao, Z., Chen, G., Qu, S., and Dong, H.^# (2005). The ABI2-dependent abscisic acid signalling controls HrpN-induced drought tolerance in Arabidopsis. Planta 221, 313-327.

57. Dong, H.-P.^*, Peng, J.^*, Bao, Z., Meng, X., Bonasera, J.M., Chen, G., Beer, S.V., and Dong, H.^# (2004). Downstream divergence of the ethylene signaling pathway for harpin-stimulated Arabidopsis growth and insect defense. Plant Physiology 136, 3628-3638.

58. Peng, J.-L., Bao, Z.-L., Li, P., Chen, G.-Y., Wang, J.-S., and Dong, H.-S.^# (2004a). Harpin~ X~ o~ o and Its Functional Domains Activate Pathogen-inducible Plant Promoters in Arabidopsis. ACTA BOTANICA SINICA-ENGLISH EDITION- 46, 1083-1090.

59. Peng, J.-L., Bao, Z.-L., Ren, H.-Y., Wang, J.-S., and Dong, H.-S.^# (2004b). Expression of harpinXoo in transgenic tobacco induces pathogen defense in the absence of hypersensitive cell death. Phytopathology 94, 1048-1055.