个人简历
教育经历\r2007年6月,中南林业科技大学资源与环境学院林学专业,获学士学位\r2012年6月,北京林业大学园林植物与观赏园艺专业硕博连读,获博士学位\r\r职业经历\r2012-2015年,北京林业大学园林学院,讲师(2014.3-12,国家自然基金委员会生命科学部借调项目管理)\r2016-2022年,北京林业大学园林学院,副教授\r2022年1月至今,北京林业大学园林学院,教授
研究领域
"""""1. 观赏植物花色形成机理:以色系丰富、生长周期快的瓜叶菊为主要研究材料,综合利用分子生物学技术、瞬时稳定转化体系及基因编辑,解析蓝色花、彩斑、复色花等主要观赏性状的形成及遗传调控机理。\r\r2. 菊花主要观赏形状的分子调控:以中国传统名花、北京市市花菊花为材料,依托丰富的种质资源,进行光敏呈色特性、托桂花型、地下器官形成、花香等重要园艺性状的分子调控机理和种质创新。\r\r3. 菊属野生资源调查、收集及抗逆性育种:针对我国北方地区干旱、寒冷、盐碱等特殊生态条件下园林绿化的需求,广泛收集北方地区抗逆种质资源,如蒙菊、威海野菊、小山菊等资源,与园艺品种进行杂交、倍性育种等工作,培育抗逆品种,并在我国北方盐碱地进行推广。\r\r4. 适于北京地区的杜鹃花属植物引种:杜鹃花是中国十大名花之一,北方地区具有丰富的杜鹃花种质资源,但园林绿化中应用较少,土壤盐碱化及低温是限制其应用的主要生态因子。课题组拟在广泛品种收集基础上进行种质资源评价和抗盐碱种质资源创新工作。"
近期论文
Fangting Qi, Yuting Liu, Yiliu Luo, Yumeng Cui, Chenfei Lu, Hao Li, He Huang*, Silan Dai*. Functional analysis of the ScAG and ScAGL11 MADS-box transcription factors for anthocyanin biosynthesis and bicolour pattern formation in Senecio cruentus ray florets, Horticulture Research, 2022. (IF= 7.291,Top期刊)\r\rChenfei Lu, Jiaping Qu, Chengyan Deng, Fangye Liu, Fan Zhang, He Huang*, Silan Dai*. The transcription factor complex CmAP3-CmPI-CmUIF1 modulates carotenoid metabolism by directly regulating carotenogenic gene CmCCD4a-2 in chrysanthemum. Horticulture Research, 2022, 9. (IF= 7.291,Top期刊)\r\rYajun Li, Yumeng Cui , Bingjie Wang, Yue Li, Mengmeng Zhang, Silan Dai, He Huang*. Genotype Screening of Recipient Resources with High Regeneration and Transformation Efficiency in Chrysanthemum. Phyton-International Journal of Experimental Botany, 2022,91(4), 869–888.(IF= 1.407)\r\rYumeng Cui, Jiawei Fan, Chenfei Lu, Jiangshan Ren, Fangting Qi, He Huang*, Silan Dai*. ScGST3 and multiple R2R3-MYB transcription factors function in anthocyanin accumulation in Senecio cruentus. Plant Science, 2021, 313: 111094. (IF= 5.363,Top期刊)\r\rChenfei Lu, Yajun Li, Yumeng Cui, Jiangshan Ren, Fangting Qi, Jiaping Qu, He Huang*, Silan Dai*. Isolation and Functional Analysis of Genes Involved in Polyacylated Anthocyanin Biosynthesis in Blue Senecio cruentus. Frontiers in?Plant?Science, 2021, 12:640746. (IF= 6.627)\r\rYa Pu, Runing Huo, Qifang Lin, Fan Wang, Xiaojinglan Chun, He Huang*, Silan Dai*. Investigation and screening of chrysanthemum resources to identify self-compatible mutants. Scientia Horticulturae, 2021, 281: 109931. (IF= 4.342)\r\rChenfei Lu, Yanfei Li, Jiaying Wang, Jiaping Qu, Yi Chen, Xiaoyan Chen, He Huang*, Silan Dai*. Flower color classification and correlation between color space values with pigments in potted multiflora chrysanthemum. Scientia Horticulturae, 2021, 283: 110082. (IF= 4.342)\r\rYajun Li, Yuting Liu, Fangting Qi, Chengyan Deng, Chenfei Lu, He Huang*, Silan Dai. Establishment of virus-induced gene silencing system and functional analysis of ScbHLH17 in Senecio cruentus. Plant Physiology and Biochemistry, 2020, 147:272-279. (IF= 5.437)\r\rHe Huang, Yuting Liu, Ya Pu, Mi Zhang, Silan Dai*. Transcriptome Analysis of Chrysanthemum lavandulifolium Response to Salt Stress and Overexpression a K+ Transport ClAKT Gene-enhanced Salt Tolerance in Transgenic Arabidopsis. Journal of the American Society for Horticultural Science, 2019, 144(4):219-235. (IF= 0.975)\r\rChenfei Lu, Ya Pu, Yuting Liu, Jiaping Qu, He Huang*, Silan Dai*. Comparative transcriptomics and weighted gene co-expression correlation network analysis (WGCNA) reveal potential regulation mechanism of carotenoid accumulation in Chrysanthemum × morifolium. Plant Physiology and Biochemistry, 2019, 142:415-428. (IF= 5.437)\r\rHe Huang, Chenfei Lu, Sha Ma, Xinyu Wang, Silan Dai*. Different colored Chrysanthemum × morifolium cultivars represent distinct plastid transformation and carotenoid deposit patterns. Protoplasma, 2019, 256:1629-1645. (IF= 2.913)\r\rYa Pu#, He Huang#, Xiaohui Wen, Chenfei Lu, Bohan Zhang, Xueqi Gu, Shuai Qi, Guangxun Fan, Wenkui Wang, Silan Dai*. Comprehensive transcriptomic analysis provides new insights into the mechanism of ray floret morphogenesis in chrysanthemum. BMC Genomics, 2020, 21:728. (IF= 3.594)\r\rFengli Dong#, He Huang#, Jie Liu, Mi Zhang, Yunwei Zhou*, Silan Dai*. Cloning and function analysis of ClNAC9 from Chrysanthemum lavandulifolium. Canadian Journal of Plant Science, 2018, 98(6):1265-1279. (IF=\
