魏洪彬
副教授,硕士研究生导师。
1988年出生于四川成都,2017年获德国海德堡大学博士学位,2021年5月加入西南大学生命科学学院。以第一作者(含共同)和通讯作者(含共同)身份在Current Biology, The Plant Cell, New Phytologist,Plant Communications等期刊发表论文11篇。主持国家自然科学基金面上项目和青年项目、国家重点研发计划子课题、重庆市自然科学基金面上项目。
研究方向
以模式植物拟南芥(草本)和杨树(木本)为研究对象,主要从事
(1)环境因子(光周期和温度信号)调控维管发育和次生壁合成的机理研究;
(2)树木季节性生长的分子调控网络解析,包括芽的休眠与休眠解除,早材与晚材形成的分子机制。
学习经历
2013.10 ~ 2017.04 博士,德国海德堡大学
2011.10 ~ 2013.11 硕士,德国霍恩海姆大学(获德国DAAD全额奖学金)
2007.09 ~ 2011.07 本科,东北师范大学
工作经历
2021.05~至今 西南大学,生命科学学院,副教授
2017.10~2021.04 华南农业大学,生命科学学院,首聘副教授
主持项目
1.国家自然科学基金面上项目,杨树SPL转录因子介导林分密度调控维管形成层活性的机理研究,50万,2024.01-2027.12,主持
2.国家重点研发计划子课题,长江上游重要植物种质创制关键共性技术研发,80万,2022.12-2027.11,主持
3.国家自然科学基金青年项目,杨树光敏色素互作因子PIFs调控次生壁合成的机理研究,30万,2022.01-2024.12,主持
4.重庆市自然科学基金面上联合项目,光敏色素互作因子PIFs调控杨树维管形成层活动周期的研究, 2021.10-2024.09, 10万元,主持
5.重庆市林业局重点项目,珍贵用材树种高效培育技术创新与示范, 2022.01- 2026.12, 150万元,参与
6.广东省自然科学基金面上项目,ZmSPL转录因子调控玉米幼年期向成年期转变和开花的功能研究,2021.01-2023.12,主持
7.广东省自然科学基金面上项目,拟南芥光信号蛋白PIFs和FHY3/FAR1介导遮荫对气孔发育的调控机理研究, 2019.10~2022.09,主持,结题
8.广东省教育厅高等学校高层次人才项目,玉米ZmPIF-miR156模块调控避荫反应的机理解析,2019.01~2019.12,主持,结题
论文发表
第一(共同第一)作者;通讯(共同通讯)作者
1.Wei H.#, Song Z.#, Xie Y.#, Cheng H., Yan H., Sun F., Liu H., Shen J., Li L., He X., Wang H.*, Luo K.*(2023).High Temperature Inhibits Vascular Development via the PIF4-miR166-HB15 Module inArabidopsis.Current Biology.33(15):3203-3214.e4.
2.Yang, J.#,Wei, H.#, Hou, M., Chen, L., Zou, T., Ding, H., Jing, Y., Zhang, X., Zhao, Y., Liu, Q., Heng, Y., Wu, H., Wang, B., Kong, D.*, & Wang, H.*(2023). ZmSPL13 and ZmSPL29 Act Together to Promote Vegetative and Reproductive Transition in Maize.New Phytologist.239(4):1505-1520 .
3.Kong D.#, Li C.#, Xue W.#,Wei H.#, Ding H., Hu G., Zhang X., Zhang G., Zou T., Xian Y., Wang B., Zhao Y., Liu Y., Xie Y., Xu M., Wu H., Liu Q.,*Wang H.*(2023). UB2/UB3/TSH4-Anchored Transcriptional Networks Regulate Early Maize Inflorescence Development in Response to Simulated Shade.The Plant Cell. 35(2): 717-737.
4.Wei H.*, Jing Y., Zhang L., Kong D. (2021).Phytohormones and Their Crosstalk in Regulating Stomatal Development and Patterning.Journal of Experimental Botany. 72(7):2356-2370.
5.Yang J., Li C., Kong D., Guo F.,Wei H.*(2020).Light Signaling and Guard Cell Metabolism Coordinate Stomatal Opening and Closure.Frontiers in Plant Science.11:601478.
6.Kong D.#, Pan X.#, Jing Y.#, Zhao Y., Yang J., Wang B., Liu Y., Shen R., Cao Y., Wu H.,Wei H.*, Wang H.*(2021).ZmSPL10/14/26 Are Required for Epidermal Hair Cell Fate Specification on Maize Leaf.New Phytologist. 230(4):1533-1549.
7.Wei H., Kong D., Yang J., Wang H.*(2020).Light Regulation of Stomata Development and Patterning: Shifting the Paradigm fromArabidopsisto Grasses.Plant Communications.1, 100030.
8.Wei H.#,Zhao Y.#, Xie Y., Wang H.*(2018).ExploitingSPLGenes to Improve Maize Plant Architecture Tailored for High-Dnsity Planting.Journal of Experimental Botany69, 4675–4688.
9.Wei H., Bausewein A., Greiner S., Dauchot N., Harms K., and Rausch T*. (2017).CiMYB17, A Stress-Induced Chicory R2R3-MYB Transcription Factor, Activates Promoters of Genes Involved in Fructan Synthesis and Degradation.New Phytologist.215: 281–298.
10.Wei H., Zhao H., Su T., Bausewein A., Greiner S., Harms K. Rausch T*.(2017). Chicory CiMYB3 and CiMYB5 Regulate Fructan 1-Exohydrolase Expression in Response to Abiotic Stress and Hormonal Cues.Journal of Experimental Botany. 68 (15): 4323-4338.
11.Wei H., Bausewein A., Steininger H., Su T., Zhao H., Harms K., Greiner S., Rausch T*.(2016). Linking Expression of Fructan Active Enzymes, Cell Wall Invertases and Sucrose Transporters with Fructan Profiles in Growing Taproot of Chicory (Cichorium intybus): Impact of Hormonal and Environmental Cues.Frontiers in Plant Science.7: 1806.
参与合作的论文
1.Wang B.#, Hou M.#, Shi J.#, Ku L.#, Song W.#, Li C.#, Ning Q., Li X., Li C., Zhao B., Zhang R., Xu H., Bai Z., Xia Z., Wang H., Kong D.,Wei H., Jing Y., Dai Z., Wang H.H., Zhu X., Li C., Sun X., Wang S., Yao W., Hou G., Qi Z., Dai H., Li X., Zheng H., Zhang Z., Li Y., Wang T., Jiang T., Wan Z., Chen Y.*, Zhao J.*, Lai J.*, Wang, H.* (2023). De NovoGenome Assembly and Analyses of Twelve Founder Inbred Lines Provide Insights into Maize Heterotic Groups and Heterosis.Nature Genetics55(2):312-323.
2.Kong L, Song Q,Wei H,Wang Y, Lin M, Sun K, Zhang Y, Yang J, Li C, Luo K. (2023). The AP2/ERF transcription factor PtoERF15 confers drought tolerance via JA-mediated signaling inPopulus.New Phytologist, 10.1111/nph.19251
3.Hu J., Su H., Cao H.,Wei H., Fu X., Jiang X., Song Q., He X., Xu C.*, and Luo K.*(2022). AUXIN RESPONSE FACTOR7 Integrates Gibberellin and Auxin Signaling via Interactions between DELLA and AUX/IAA Proteins to Regulate Cambial Activity in Poplar.The Plant Cell,34(7), 2688–2707.
4.Wang B.#, Lin Z.#, Li X.#, Zhao Y., Zhao B., Wu G., Ma X., Wang H., Xie Y., Li Q., Song G., Kong D., Zheng Z.,Wei H., Shen R., Wu H., Chen C., Meng Z., Wang T., Li Y., Li X., Chen Y., Lai J., Hufford M., Ross-Ibarra J., He H.*, Wang H.*(2020).Genome-wide Selection and Genetic Improvement During Modern Maize Breeding.Nature Genetics, 52(6), 565-571.
5.Li Q.#, Wu G.#, Zhao Y., Wang B., Zhao B., Kong D.,Wei H., Chen C.*, Wang H.*(2020).CRISPR/Cas9-Mediated Knockout and Overexpression Studies Reveal a Role of Maize Phytochrome C in Regulating Flowering Time and Plant Height.Plant Biotechnology Journal.18(12):2520-2532.
6.Xie Y., Liu Y., Ma M., Zhou Q., Zhao Y., Zhao B., Wang B.,Wei H., Wang H.*(2020) Arabidopsis FHY3 and FAR1 integrate light and strigolactone signaling to regulate branching.Nature Communications.11(1):1955.
7.Liu Y., Ma M., Li G., Yuan L., Xie Y.,Wei H., Ma X., Li Q., Devlin P., Xu X., Wang H.*(2020) Arabidopsis FHY3 and FAR1 Are Required for Light Induction and Amplitude of CCA1 Expression.ThePlant Cell,32(5):1464-1478.
8.Liu Y.,Wei H., Ma M., Li Q., Kong D., Sun J., Ma X., Wang B., Chen C., Xie Y., Wang H.*(2019).Arabidopsis FHY3 and FAR1 Regulate the Balance between Growth and Defense Responses under Shade Conditions (2019)The Plant Cell, 31: 2089–2106.
9.Tang X., Su T.*, Han M., Wei L., Wang W., Yu Z., Xue Y.,Wei H., Du Y., Greiner S., Rausch T., Liu L. (2017).Suppression of Extracellular Invertase Inhibitor Gene Expression Improves Seed Weight inGlycine Max.Journal of Experimental Botany. 68 (3): 469-482.
10.Su T., Wolf S., Han M., Zhao Z.,Wei H., Greiner S., Rausch T.*(2016).Reassessment of anArabidopsisCell Wall Invertase Inhibitor AtCIF1 Reveals Its Role in Seed Germination and Early Seedling Growth.Plant Molecular Biology. 90 (1):137-155.
11.Zhao H., Su T., Huo L.,Wei H., Jiang Y., Xu L. Ma F.*(2015).Unveiling the Mechanism of Melatonin Impacts on Maize Seedlings Growth: Sugar Metabolism as a Case.Journal of Pineal Research. 59 (2):255-266.
联系方式
电子邮箱:hongbinwei@swu.edu.cn
欢迎对树木环境适应性和季节性生长调控机制感兴趣的本科生和研究生联系。