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教授

朱鸿亮

发布日期:2017-05-25   浏览次数:

 

朱鸿亮,教授,学科方向:食品生物技术,食品科学;电话: 62737571邮箱:hlzhu@cau.edu.cn

 

教育经历

2003.09-2008.07: 中国农业大学       博士 

1999.09-2003.07: 中国农业大学      学士


工作经历

2013.04至今:  中国农业大学食品科学与营养工程学院  教授(中国农业大学拔尖人才)

2010.02-2013.01: 美国得州农工大学      博士后

2008.08-2010.01: 美国得州理工大学      博士后


研究领域及方向

 果蔬采后生理与分子生物学, 果蔬营养物质代谢调控, 果实发育和成熟机制


教授课程

《分子生物学专题》、《分子生物学技术》、《生物统计与试验设计》。    


研究成果

    科研项目

主持国家自然科学基金面上项目,优秀青年科学基金项目,重大研究计划培育项目;国家重点研发计划课题

    代表著作与论文

        Li, X., Yang, Y., Zeng, N., Qu, G., Fu, D., Zhu, B., Luo, Y., Ostersetzer-Biran, O., & Zhu, H. (2022). Glycine-rich RNA-binding cofactor RZ1AL is associated with tomato ripening and development. Horticulture research9, uhac134. https://doi.org/10.1093/hr/uhac134

 

        Ma, L., Yang, Y., Wang, Y., Cheng, K., Zhou, X., Li, J., Zhang, J., Li, R., Zhang, L., Wang, K., Zeng, N., Gong, Y., Zhu, D., Deng, Z., Qu, G., Zhu, B., Fu, D., Luo, Y., & Zhu, H. (2022). SlRBP1 promotes translational efficiency via SleIF4A2 to maintain chloroplast function in tomato. The Plant cell34(7), 2747–2764. https://doi.org/10.1093/plcell/koac104

 

        Zhu, G., & Zhu, H. (2022). Modified Gene Editing Systems: Diverse Bioengineering Tools and Crop Improvement. Frontiers in plant science13, 847169. https://doi.org/10.3389/fpls.2022.847169

 

         Deng, Z., Ma, L., Zhang, P., & Zhu, H. (2022). Small RNAs Participate in Plant-Virus Interaction and Their Application in Plant Viral Defense. International journal of molecular sciences23(2), 696. https://doi.org/10.3390/ijms23020696

 

         Sun, Z., Zang, Y., Zhou, L., Song, Y., Chen, D., Zhang, Q., Liu, C., Yi, Y., Zhu, B., Fu, D., Zhu, H., & Qu, G. (2021). A tomato receptor-like cytoplasmic kinase, SlZRK1, acts as a negative regulator in wound-induced jasmonic acid accumulation and insect resistance. Journal of experimental botany72(20), 7285–7300. https://doi.org/10.1093/jxb/erab350

 

        Ma, L., Cheng, K., Li, J., Deng, Z., Zhang, C., & Zhu, H. (2021). Roles of Plant Glycine-Rich RNA-Binding Proteins in Development and Stress Responses. International journal of molecular sciences22(11), 5849. https://doi.org/10.3390/ijms22115849

 

        Wang, T., Zhang, C., Zhang, H., & Zhu, H. (2021). CRISPR/Cas9-Mediated Gene Editing Revolutionizes the Improvement of Horticulture Food Crops. Journal of agricultural and food chemistry69(45), 13260–13269. https://doi.org/10.1021/acs.jafc.1c00104

Gao, Y., Wei, W., Fan, Z., Zhao, X., Zhang, Y., Jing, Y., Zhu, B., Zhu, H., Shan, W., Chen, J., Grierson, D., Luo, Y., Jemrić, T., Jiang, C. Z., & Fu, D. Q. (2020). Corrigendum to: Re-evaluation of the nor mutation and the role of the NAC-NOR transcription factor in tomato fruit ripening. Journal of experimental botany71(12), 3759. https://doi.org/10.1093/jxb/eraa247

 

       Yang, Y., Liu, X., Wang, K., Li, J., Zhu, G., Ren, S., Deng, Z., Zhu, B., Fu, D., Qu, G., Luo, Y., & Zhu, H. (2020). Molecular and functional diversity of organelle RNA editing mediated by RNA recognition motif-containing protein ORRM4 in tomato. The New phytologist228(2), 570–585. https://doi.org/10.1111/nph.16714

 

        Wang, T., Zhang, H., & Zhu, H. (2019). CRISPR technology is revolutionizing the improvement of tomato and other fruit crops. Horticulture research6, 77. https://doi.org/10.1038/s41438-019-0159-x

 

        Yu, T., Tzeng, D. T. W., Li, R., Chen, J., Zhong, S., Fu, D., Zhu, B., Luo, Y., & Zhu, H. (2019). Genome-wide identification of long non-coding RNA targets of the tomato MADS box transcription factor RIN and function analysis. Annals of botany123(3), 469–482. https://doi.org/10.1093/aob/mcy178

 

        Wang, T., Deng, Z., Zhang, X., Wang, H., Wang, Y., Liu, X., Liu, S., Xu, F., Li, T., Fu, D., Zhu, B., Luo, Y., & Zhu, H. (2018). Tomato DCL2b is required for the biosynthesis of 22-nt small RNAs, the resulting secondary siRNAs, and the host defense against ToMV. Horticulture research5, 62. https://doi.org/10.1038/s41438-018-0073-7

 

        Li, X., Wang, Y., Chen, S., Tian, H., Fu, D., Zhu, B., Luo, Y., & Zhu, H. (2018). Lycopene Is Enriched in Tomato Fruit by CRISPR/Cas9-Mediated Multiplex Genome Editing. Frontiers in plant science9, 559. https://doi.org/10.3389/fpls.2018.00559

 

        Li, R., Fu, D., Zhu, B., Luo, Y., & Zhu, H. (2018). CRISPR/Cas9-mediated mutagenesis of lncRNA1459 alters tomato fruit ripening. The Plant journal : for cell and molecular biology94(3), 513–524. https://doi.org/10.1111/tpj.13872

 

        Li, R., Li, R., Li, X., Fu, D., Zhu, B., Tian, H., Luo, Y., & Zhu, H. (2018). Multiplexed CRISPR/Cas9-mediated metabolic engineering of γ-aminobutyric acid levels in Solanum lycopersicum. Plant biotechnology journal16(2), 415–427. https://doi.org/10.1111/pbi.12781

 

        Lu, Y., & Zhu, H. (2022). The regulation of nutrient and flavor metabolism in tomato fruit. Vegetable Research2(1), 1-14.

 

       Yu, T., & Zhu, H. (2019). Long non-coding RNAs: Rising regulators of plant reproductive development. Agronomy9(2), 53.

 

       Zhu Guoning, Zhang Chunjiao, Zhu Hongliang. Transformation and Application of Gene Editing System in Food Crops[J]. Future Food Science, 2021, 1(2): 63-73.

 

       Li, R., Zhu, H., & Luo, Y. (2016). Understanding the Functions of Long Non-Coding RNAs through Their Higher-Order Structures. International journal of molecular sciences17(5), 702. https://doi.org/10.3390/ijms17050702  

 

      Zhu, B., Yang, Y., Li, R., Fu, D., Wen, L., Luo, Y., & Zhu, H. (2015). RNA sequencing and functional analysis implicate the regulatory role of long non-coding RNAs in tomato fruit ripening. Journal of experimental botany66(15), 4483–4495. https://doi.org/10.1093/jxb/erv203

 

      Wang, T., Li, R., Wen, L., Fu, D., Zhu, B., Luo, Y., & Zhu, H. (2015). Functional Analysis and RNA Sequencing Indicate the Regulatory Role of Argonaute1 in Tomato Compound Leaf Development. PloS one10(10), e0140756. https://doi.org/10.1371/journal.pone.0140756

 

       Yang, Y., Wen, L., & Zhu, H. (2015). Unveiling the hidden function of long non-coding RNA by identifying its major partner-protein. Cell & bioscience5, 59. https://doi.org/10.1186/s13578-015-0050-x

 

      Zhu, H., Zhou, Y., Castillo-González, C., Lu, A., Ge, C., Zhao, Y. T., Duan, L., Li, Z., Axtell, M. J., Wang, X. J., & Zhang, X. (2013). Bidirectional processing of pri-miRNAs with branched terminal loops by Arabidopsis Dicer-like1. Nature structural & molecular biology20(9), 1106–1115. https://doi.org/10.1038/nsmb.2646

 

      Zhu, H., Hu, F., Wang, R., Zhou, X., Sze, S. H., Liou, L. W., Barefoot, A., Dickman, M., & Zhang, X. (2011). Arabidopsis Argonaute10 specifically sequesters miR166/165 to regulate shoot apical meristem development. Cell145(2), 242–256. https://doi.org/10.1016/j.cell.2011.03.024

 

       Zhu, H. L., Zhu, B. Z., Li, Y. C., Shao, Y., Wang, X. G., Xie, Y. H., Chen, A. J., Luo, J. J., Jia, X. Y., & Luo, Y. B. (2008). Expression and DNA binding activity of the tomato transcription factor RIN (ripening inhibitor). Bioscience, biotechnology, and biochemistry72(1), 250–252. https://doi.org/10.1271/bbb.70577

 

       Zhu, H. L., Zhu, B. Z., Shao, Y., Lin, X. J., Wang, X. G., Gao, H. Y., Xie, Y. H., Li, Y. C., & Luo, Y. B. (2007). Molecular cloning and characterization of ETHYLENE OVERPRODUCER 1-LIKE 1 gene, LeEOL1, from tomato (Lycopersicon esculentum Mill.) fruit. DNA sequence : the journal of DNA sequencing and mapping18(2), 131–137. https://doi.org/10.1080/10425170601060921

 

       Zhu, H. L., Zhu, B. Z., Zhang, Y. L., Shao, Y., Wang, X. G., Xie, Y. H., Chen, A. J., Li, Y. C., Tian, H. Q., & Luo, Y. B. (2007). Expression of a truncated ripening inhibitor (RIN) protein from tomato and production of an anti-RIN antibody. Biotechnology letters29(9), 1425–1430. https://doi.org/10.1007/s10529-007-9404-8

 

       Zhu, H. L., Zhu, B. Z., Shao, Y., Wang, X. G., Lin, X. J., Xie, Y. H., ... & Luo, Y. B. (2006). Tomato fruit development and ripening are altered by the silencing of LeEIN2 gene. Journal of Integrative Plant Biology48(12), 1478-1485.

 

       Zhu, H.L., Zhu, B.Z., Fu, D.Q. et al. Role of Ethylene in the Biosynthetic Pathways of Aroma Volatiles in Ripening Fruit. Russ J Plant Physiol 52, 691–695 (2005). https://doi.org/10.1007/s11183-005-0103-9


 

 

       实验室现有12名在读研究生以及2名博士后,其中包括博士研究生6人,硕士研究生6人。实验室配备完善的分子生物学和生物化学实验所需仪器。科研之余,实验室会组织丰富多彩的业余活动,缓解实验压力的同时能促进大家的交流和凝聚力。