朱炎

发布时间:2021-06-29浏览次数:4722

教师基本信息

姓名:朱炎

职称:教授

电子邮箱:zhu_yan@fudan.edu.cn

办公地点:生科院A401-2

 

信息板块:

研究方向:植物表观遗传学,植物-病原菌相互作用,植物DNA损伤修复机制

研究方向:Plant epigenetics, Plant-pathogen interaction, DNA repair mechanism in plants

 

个人简介:

2000年获mg4355电子娱乐官网生物化学学士学位, 2006年获mg4355电子娱乐官网植物分子生物学博士学位。2009年起留校工作至今。

B.A degree in Biochemistry obtained in 2000, followed by a Ph.D. in Plant Molecular Biology from Fudan University in 2006. Employed at Fudan University since 2009.

 

授课情况:

《现代生物科学导论A/C(教学PI) 《生物化学A

Introduction to modern life sciences A/C(course PI)Biochemistry A

 

招生专业:生物化学Biochemistry

 

代表性论文和论著:

 

课程教材《现代生命科学》(2) (ISBN: 9787040599398) 第一主编

“Modern Life Science” (2nd edition) First editor-in-chief

 

Fan, T., Shi, T., Sui, R., Wang, J., Kang, H.#, Yu, Y. # and Zhu, Y. # (2024) The chromatin remodeler ERCC6 and the histone chaperone NAP1 are involved in apurinic/apyrimidinic endonuclease-mediated DNA repair. Plant cell, 36, 2238-2252.

Li, M., Wang, H., Tian, S., Zhu, Y.# and Zhang, Y.# (2023) Triticeae-BGC: a web-based platform for detecting, annotating and evolutionary analysis of biosynthetic gene clusters in Triticeae. J Genet Genomics, 50, 921-923.

Fan, T., Kang, H., Wu, D., Zhu, X., Huang, L., Wu, J., and Zhu, Y.#(2022). Arabidopsis γ-H2A.X-INTERACTING PROTEIN participates in DNA damage response and safeguards chromatin stability. Nature communications 13, 7942.

Kang, H., Liu, Y., Fan, T., Ma, J., Wu, D., Heitz, T., Shen, W.H., and Zhu, Y.#(2022). Arabidopsis CHROMATIN REMODELING 19 acts as a transcriptional repressor and contributes to plant pathogen resistance. Plant Cell 34, 1100-1116.

Kang, H., Fan, T., Wu, J., Zhu, Y.#, and Shen, W.H.#(2022). Histone modification and chromatin remodeling in plant response to pathogens. Front Plant Sci 13, 986940.

Kang, H., Wu, D., Fan, T., and Zhu, Y.# (2020). Activities of Chromatin Remodeling Factors and Histone Chaperones and Their Effects in Root Apical Meristem Development. Int J Mol Sci 21.

Kang, H., Ma, J., Wu, D., Shen, W.H., and Zhu, Y.# (2019a). Functional Coordination of the Chromatin-Remodeling Factor AtINO80 and the Histone Chaperones NRP1/2 in Inflorescence Meristem and Root Apical Meristem. Front Plant Sci 10, 115.

Kang, H., Zhang, C., An, Z., Shen, W.H., and Zhu, Y.# (2019b). AtINO80 and AtARP5 physically interact and play common as well as distinct roles in regulating plant growth and development. New Phytol 223,336-353.

Zhu, Y.*#, Rong, L.*, Luo, Q.*, Wang, B., Zhou, N., Yang, Y., Zhang, C., Feng, H., Zheng, L., Shen, W.H., Ma, J.#, and Dong, A.# (2017). The Histone Chaperone NRP1 Interacts With WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development. Plant Cell 29, 260-276.

Zhang, C., Cao, L., Rong, L., An, Z., Zhou, W., Ma, J., Shen, W.H., Zhu, Y.#, and Dong, A.# (2015). The chromatin-remodeling factor AtINO80 plays crucial roles in genome stability maintenance and in plant development. Plant J 82,655-668.

Zhou, W.*, Zhu, Y.*, Dong, A., and Shen, W.H. (2015). Histone H2A/H2B chaperones: from molecules to chromatin-based functions in plant growth and development. Plant J 83,78-95.

Weng, M., Yang, Y., Feng, H., Pan, Z., Shen, W.H., Zhu, Y.#, and Dong, A.# (2014). Histone chaperone ASF1 is involved in gene transcription activation in response to heat stress in Arabidopsis thaliana. Plant Cell Environ 37,2128-2138.

Gao, J.*, Zhu, Y.*, Zhou, W., Molinier, J., Dong, A., and Shen, W.H. (2012). NAP1 Family Histone Chaperones Are Required for Somatic Homologous Recombination in Arabidopsis. Plant Cell 24,1437-1447.

Zhu, Y.*, Dong, A., and Shen, W.H. (2012). Histone variants and chromatin assembly in plant abiotic stress responses. Biochim Biophys Acta 1819,343-348.

Zhu, Y.*, Weng, M.*, Yang, Y., Zhang, C., Li, Z., Shen, W.H., and Dong, A. (2011). Arabidopsis homologues of the histone chaperone ASF1 are crucial for chromatin replication and cell proliferation in plant development. Plant J 66,443-455.