研究室介紹
本研究室成立于2002年(nián),主要從事林木生物技術和(hé)谷子(zǐ)分子(zǐ)育種研究。重點研究內(nèi)容包括林木細胞壁合成機理(lǐ)和(hé)楊樹材性改良基因工程育種、谷子(zǐ)種質資源評價保存和(hé)生物技術育種。團隊現有正高(gāo)級職稱研究人員2名,副高(gāo)級職稱研究人員3名,中級職稱研究人員2名,以及多名流動研究人員。研究室先後承擔了國家科技部十五到十四五國家重點研發課題10餘項,國家自(zì)然科學(xué)基金項目7項,以及國家轉基因重大專項、國家林業局948項目、北京市科委重大轉基因專項、現代農業産業技術體系北京市創新團隊崗位專家等項目。發表高(gāo)水平文章(zhāng)20餘篇,獲得國家發明專利10餘項。
人員構成
成果展示
近期主要項目
| [1] | 國家自(zì)然科學(xué)基金 “楊樹保衛細胞壁力學(xué)特性的(de)分子(zǐ)調控機制解析” 面上項目(32271901),2023-2026; |
| [2] | 十四五國家重點研發計劃課題“林木單倍體高(gāo)效誘導和(hé)加倍技術”(2021YFD2200203)子(zǐ)課題,2021-2026; |
| [3] | 北京市農業農村局“現代農業産業技術體系北京市創新團隊”崗位專家,2022-2026; |
| [4] | 國家自(zì)然科學(xué)基金 “楊樹細胞壁合成基因調控根蘖苗發生的(de)分子(zǐ)機制研究” 面上項目(32171736),2022-2025; |
| [5] | 國家重點研發計劃“谷子(zǐ)品質育種的(de)分子(zǐ)标記開發”(2019YFD1000703)子(zǐ)課題,2019-2022; |
| [6] | 轉基因生物新品種培育國家科技重大專項“轉基因楊樹新品種培育及産業化研究”(2018ZX08020002)子(zǐ)課題,2018-2020; |
| [7] | 國家自(zì)然科學(xué)基金“楊樹保衛細胞壁合成調控的(de)分子(zǐ)機制”面上項目(31770708),2018-2021; |
| [8] | 國家自(zì)然科學(xué)基金“基于轉錄組分析的(de)楊樹胚性愈傷組織形成的(de)關鍵基因發掘及功能分析”青年(nián)基金(31800567),2019-2021; |
| [9] | 國家重點研發計劃課題“林木木質部分化調控因子(zǐ)鑒定及功能解析”(2016YFD0600104)子(zǐ)課題,2016-2020; |
| [10] | 北京市農委推廣項目“谷子(zǐ)省工輕簡栽培技術與配套新品種在京郊的(de)示範推廣”,2018-2019。 |
科研論文
| [1] | Deng, Y., Zhang, H., Wang, H., Xing, G., Lei, B., Kuang, Z., Zhao, Y., Li, C., Dai, S., Yang, X., et al. The Construction and Exploration of a Comprehensive MicroRNA Centered Regulatory Network in Foxtail Millet (Setaria italica L.). Front Plant Sci, 2022, 13, 848474. |
| [2] | Li, C., Ma, J., Wang, G., Li, H., Wang, H., Wang, G., Jiang, Y., Liu, Y., Liu, G., Liu, G., et al. Exploring the SiCCT Gene Family and Its Role in Heading Date in Foxtail Millet. Front Plant Sci, 2022, 13, 863298. |
| [3] | Li, C., Wang, G., Li, H., Wang, G., Ma, J., Zhao, X., Huo, L., Zhang, L., Jiang, Y., Zhang, J., et al. High-depth resequencing of 312 accessions reveals the local adaptation of foxtail millet. Theor Appl Genet, 2021, 134, 1303-1317. |
| [4] | Zheng L, Yang J, Chen Y, Ding L, Wei J*, Wang H*: An improved and efficient method of Agrobacterium syringe infiltration for transient transformation and its application in the elucidation of gene function in poplar. BMC Plant Biology, 2021, 21:54 |
| [5] | Ding, L., Chen, Y., Ma, Y., Wang, H*., and Wei, J*. Effective reduction in chimeric mutants of poplar trees produced by CRISPR/Cas9 through a second round of shoot regeneration. Plant Biotechnology Reports, 2020, 14, 549-558. |
| [6] | Lin Zheng#, Yajuan Chen#, Dong Ding, Ying Zhou, Liping Ding, Jianhua Wei*, Hongzhi Wang*, Endoplasmic reticulum–localized UBC34 interaction with lignin repressors MYB221 and MYB156 regulates the transactivity of the transcription factors in Populus tomentosa. BMC Plant Biology, 2019, DOI: 10.1186/s12870-019-1697-y. |
| [7] | Ding LP, Chen YJ, Wang HZ, Wei JH*. Efficacy of Cry1Ac protein against gypsy moth and fall webworm in transgenic poplar (Populus davidiana × Populus bolleana) by bioassay. Canadian Journal of Plant Science, 2018, 98(4): 844-850. |
| [8] | Ding LP, Chen YJ, Wei XL, Ni M, Zhang JW, Wang HZ, Zhu Z, Wei JH*. Laboratory evaluation of transgenic Populus davidiana × Populus bolleana expressing Cry1Ac+SCK, Cry1Ah3, and Cry9Aa3 genes against gypsy moth and fall webworm, PLOS ONE, 2017, 12(6): 1-12. |
| [9] | Wang Y, Chen Y, Ding L, Zhang J, Wei J*, Wang H*. Validation of Reference Genes for Gene Expression by Quantitative Real-Time RT-PCR in Stem Segments Spanning Primary to Secondary Growth in Populus tomentosa. PLoS One, 2016, 11(6): e0157370. |
| [10] | Jiewei Zhang, Keke Xia, Youming Yang, Hailian Yang*, Overexpression of Arabidopsis phosphoinositide-specific phospholipase C5 induces leaf senescence. Plant Cell Tiss Organ Cult, 2015, 120(2): 585-595. |
| [11] | Jiewei Zhang, Zhongbao Zhang, Dan Zhu, Yang Guan, Dianyi Shi, Yajuan Chen, Ruifen Li, Hongzhi Wang*, Jianhua Wei*, Expression and initial characterization of a Phosphoinositide-specific phospholipase C from Populus tomentosa. J. Plant Biochem. Biotechnol, 2014, 24:338-346 |
| [12] | Hong-Zhi Wang#, Ying-Xi Xue#, Ya-Juan Chen, Rui-Fen Li, Jian-hua Wei*, Lignin modification improves the biofuel production potential in transgenic Populus tomentosa, Industrial crops and products, 2012, 37(1):170-177. |
| [13] | Wei Jianhua, Wang Yanzhen, Wang Hongzhi, Li Ruifen, Lin Nan, Ma Rongcai,Song Yanru*,Pulping performance of transgenic poplar with depressed Caffeoyl-CoA O-methyltransferase, Chinese Science Bulletin, 2008,53(22): 3553-3558 |
| [14] | WANG Hongzhi, MA Rongcai, LI Ruifen, WANG Guoying, WEI Jianhua*, Virus-induced silencing of a tobacco deoxyhypusine synthase gene, Chinese Science Bulletin, 2005, 50(23):2707-2713. |
| [15] | JIA Caihong, ZHAO Huayan, WANG Hongzhi, XING Zhifeng, DU Kejiu, SONG Yanru, WEI Jianhua*, Obtaining the transgenic poplars with low lignin content through down-regulation of 4CL. Chinese Science Bulletin, 2004, 49(9): 905-909. |
專利
| [1] | 陳亞娟,魏建華,王宏芝,丁麗萍,姚磊,張傑偉.一(yī)種楊樹NAC基因啓動子(zǐ)及其應用。專利号:ZL 2018 1 0146879.9。 |
| [2] | 丁莉萍, 魏建華, 王宏芝, 李瑞芬, 張傑偉, 陳亞娟, 張中保, 黃義. 一(yī)種可(kě)穩定自(zì)發光的(de)重組載體的(de)構建方法及其應用。專利号:ZL201510128902.8。 |
| [3] | 丁莉萍, 王宏芝, 李瑞芬, 張傑偉, 陳亞娟, 魏建華,一(yī)套提高(gāo)根癌農杆菌介導的(de)楊樹遺傳轉化效率的(de)方法。專利号:ZL201510018359.6。 |
| [4] | 張傑偉, 魏建華, 王宏芝, 李瑞芬, 張中保, 陳亞娟, 管陽, 朱丹,楊樹蛋白PtoeIF5A1及其編碼基因在調控植物生長(cháng)中的(de)應用。專利号:ZL201310028790.X。 |
| [5] | 張傑偉, 魏建華, 王宏芝, 李瑞芬, 張中保, 陳亞娟, 丁莉萍,楊樹耐鹽基因PtoeIF5A1的(de)應用。專利号:ZL201310700593.8。 |
| [6] | 王宏芝,魏建華,李雲伏,李瑞芬,陳亞娟,張中保,張傑偉,一(yī)種提高(gāo)植物中纖維生物質能源利用效率的(de)方法。專利号:ZL201110359373.4。 |
| [7] | 王宏芝,魏建華,王彥珍,李瑞芬,馬榮才,脫氧羟腐胺賴氨酸合酶編碼基因及其反義核苷酸序列。專利号:ZL200810119993.9。 |
| [8] | 魏建華,宋豔茹,王宏芝,趙華燕,一(yī)種調控毛白楊木質素的(de)方法。專利号:ZL2003160093.X。 |
