课题组长

English

刘建祥,博士,求是特聘教授,2011年入选上海市浦江人才计划、2012获国家优秀青年基金资助,2016 年获国家杰出青年基金资助。曾任复旦大学植物科学研究所副所长。现为中国植物生理与植物分子生物学学会青年工作委员会委员、中国细胞生物学学会植物器官发生分会委员。

联系电话:0571-88208114
E-mail:jianxiangliu@zju.edu.cn

教育背景:
1994/09--1998/06   湖南农业大学   学士
1998/09--2003/06   浙江大学   博士
2000/10--2003/01   国际水稻所(IRRI)   博士论文学者

工作经历:
2003/06--2003/11   浙江大学   讲师
2003/11--2004/12   国际水稻所(IRRI)   博士后
2004/12--2009/12   美国依阿华州立大学(ISU)   博士后
2009/12--2017/08   复旦大学生命科学学院   教授
2017/09—至今      浙江大学生命科学学院   教授

主要研究方向

研究方向:
以水稻等模式植物为主要研究对象,深入研究植物营养器官、生殖器官发生和形态建成的机制以及与环境互作的调控网络,旨在从根本上揭示不同环境条件下植物形态建成与生长发育的新机制。主要研究方向有:
1)植物内质网蛋白折叠调控的分子机理及其与逆境胁迫抗性的关系;
2)植物适应环境温度升高的分子机理以及耐高温作物的分子改良。

发表论文/论著    (*通讯作者)

1、Zhang, S.S#., Yang, H#., Ding, L., Song, Z.T. Ma H., Chang F*. and Liu, J.X*. (2017). Tissue-specific transcriptomics reveals an important role of the unfolded protein response in maintaining fertility upon heat stress in Arabidopsis. Plant Cell. 29: 1007–1023.
2、Liu, J.X*. and Howell, S.H*. (2016). Managing the protein folding demands in the endoplasmic reticulum of plants. New Phytol. 211(2):418-428.
3、Zhang, S.S., Sun, L., Dong, X., Lu, S.J., Tian, W. and Liu, J.X*. (2016). Cellulose synthesis genes CESA6 and CSI1 are important for salt stress tolerance in Arabidopsis. J.Integr. Plant Biol. 58(7):623-626.
4、Song, Z.T., Sun, L., Lu, S.J., Tian, Y., Ding, Y. and Liu, J.X*. (2015). Transcription factor interaction with COMPASS-like complex regulates histone H3K4 trimethylation for specific gene expression in plants. Proc. Natl. Acad. Sci. USA. 112:2900-2905.
5、Sun, L., Zhang, S.S., Lu, S.J. and Liu, J.X*. (2015). Site-1 protease cleavage site is important for the ER stress-induced activation of membrane-associated transcription factor bZIP28 in Arabidopsis. Sci China Life Sci, 58:270-275.
6、Zhou, S.F., Sun, L., Valdés, A.E., Engstr?m, P., Song, Z.T., Lu, S.J.  and Liu, J.X*. (2015). Membrane-associated transcription factor peptidase, site-2 protease, antagonizes abscisic acid signaling in Arabidopsis. New Phytol. 208:188-197.
7、Yang, Z.T., Wang, M.J., Sun, L., Lu, S.J., Bi, D.L., Sun, L., Song, Z.T., Zhang, S.S., Zhou, S.F. and Liu, J.X*. (2014). The membrane-associated transcription factor NAC089 controls ER-stress-induced programmed cell death in plants. PLoS Genet. 10(3): e1004243.
8、Yang, Z.T., Lu, S.J., Wang, M.J., Bi, D.L., Sun, L., Zhou, S.F., Song, Z.T. and Liu, J.X*. (2014). A plasma membrane-tethered transcription factor, NAC062/ANAC062/NTL6, mediates the unfolded protein response in Arabidopsis. Plant J. 79: 1033-1043.
9、Sun, L., Yang, Z.T., Song, Z.T., Wang, M.J., Lu, S.J., Sun, L., and Liu, J.X*. (2013). The plant-specific transcription factor gene NAC103 is induced by bZIP60 through a new cis-regulatory element to modulate the unfolded protein response in Arabidopsis. Plant J. 76:274-286.
10、Sun, L., Lu, S.J., Zhang, S.S., Zhou, S.F., Sun, L., and Liu, J.X*. (2013). The lumen-facing domain is important for the biological function and organelle-to-organelle movement of bZIP28 during ER Stress in Arabidopsis. Mol. Plant. 6(5):1605-1615.
11、Gao, J#., Sun, L#., Yang, X*. and Liu, J.X*. (2013).Transcriptomic analysis of cadmium stress response in the heavy metal hyperaccumulator Sedum alfredii Hance. PLoS One. 8(6): e64643.
12、Dong, X., Wang, X., Zhang, L., Yang, Z.T., Xin, X., Wu, S., Sun, C., Liu, J.X., Yang, J., Luo, X.J*. (2013). Identification and characterization of OsEBS, a gene involved in enhanced plant biomass and spikelet number in rice. Plant Biotech. J. 11:1044-1057.
13、Lu, S., Yang, Z., Sun, L., Sun, L., Song, Z., Liu, J.X*. (2012). Conservation of IRE1-regulated bZIP74 mRNA unconventional splicing in rice (Oryza sativa L.) involved in ER stress responses. Mol. Plant. 5(2): 504-514.
14、Liu, J.X*. and Bennett, J. (2011). Reversible and irreversible drought-induced changes in the anther proteome of rice (Oryza sativa L.) genotypes IR64 and Moroberekan. Mol.Plant. 4(1): 59-69.
15、Deng, Y#., Humbert, S#., Liu, J.X., Srivastava, R., Rothstein, S.J., Howell, S.H*. (2011). Heat induces the splicing by IRE1 of a mRNA encoding a transcription factor involved in the unfolded protein response in Arabidopsis. Proc. Natl. Acad. Sci. USA. 108(17):7247-52.
16、Liu, J.X*. and Howell, S.H*. (2010). Endoplasmic reticulum protein quality control and its relationship to environmental stress responses in plants. Plant Cell. 22(9): 2930–2942. 
17、Liu, J.X. and Howell, S.H*. (2010). The bZIP28 transcription factor and NF-Y nuclear factors are activated by ER stress and assemble into a transcriptional complex to regulate stress response genes in Arabidopsis. Plant Cell. 22(3): 782-796.
18、Liu, J.X., Srivastava, R. and Howell, S.H*. (2009). Overexpression of an Arabidopsis gene encoding a subtilase (AtSBT5.4) produces a clavata-like phenotype. Planta 230(4):687-97.
19、Srivastava, R., Liu, J.X., Guo, H., Yin, Y., Howell S.H*. (2009). Regulation and processing of a plant peptide hormone, AtRALF23, in Arabidopsis. Plant J. 59:930-939.
20、Liu, J.X., Srivastava, R. and Howell, S.H*. (2008). Stress induced expression of an active form of AtbZIP17 provides protection from salt stress in Arabidopsis. Plant Cell Environ. 31:1735-1743.
21、Srivastava, R., Liu, J.X. and Howell SH*. (2008). Proteolytic processing of a precursor protein for a growth promoting peptide by a subtilisin serine protease in Arabidopsis. Plant J. 56:219-227.
22、Liu, J.X., Srivastava, R., Che, P., Howell, S.H*. (2008). Salt stress signaling in Arabidopsis thaliana involves a membrane-bound transcription factor AtbZIP17 as a signal transducer. Plant Signal. Behav. 3(1):56-57.
23、Liu, J.X., Srivastava, R., Che, P., Howell, S.H*. (2007). An ER stress response in Arabidopsis is mediated by proteolytic processing and nuclear relocation of a membrane-associated transcription factor AtbZIP28. Plant Cell. 19: 4111-4119.
24、Liu, J.X., Srivastava, R., Che, P., Howell, S.H*. (2007). Salt stress responses in Arabidopsis utilize a signal transduction pathway related to ER stress signaling. Plant J. 51(5): 897-909.
25、Liu, J.X., Liao, D.Q., Oane, R., Estenor, L., Yang, X.E., Li, Z.C., Bennett, J*. (2006). Genetic variation in the sensitivity of anther dehiscence to drought stress in rice. Field Crop. Res. 97(1): 87-100.
26、Liu, J.X., Raveendra, M., Mashtaq, R., et al. (2005). Proteomic analysis of drought-responsiveness in rice: OsADF5. In: Tuberosa, R., Phillips, R.L., Gale, M. (eds). In the Wake of the Double Helix: from the Green Revolution to the Gene Revolution. pp 491-505. Bologna, Italy.