汪念
硕士生导师
教师姓名:汪念
教师英文名称:Nian Wang
教师拼音名称:wangnian
职称:副教授
在职信息:在职
学历:博士研究生毕业
学位:博士
办公地点:园林楼北楼311
电子邮箱:
毕业院校:华中农业大学
其他联系方式
论文成果
- Cai G, Zhang Y, Huang LY, Wang N*,Uncovering the role of PdePrx12 peroxidase in enhancing disease resistance in poplar trees.Journal of fungi,2023,9(4):
- Pan L#*, Liu MH#, Kang Y#, Mei X, Hu GG, Bao C, Zheng Y, Zhao HX, Chen CY, Wang N*,Comprehensive genomic analyses of Vigna unguiculata provide insights into population differentiation and the genetic basis of key agricultural traits.Plant Biotechnology Journal,2023,
- Genome assembly, resequencing and genome-wide association analyses provide novel insights into the origin, evolution and flower colour variations of flowering cherry.The Plant Journal,2023,
- The PdeWRKY65-UGT75L28 gene module negatively regulates lignin biosynthesis in poplar petioles.Industrial Crops and Products,2023,
- Overexpression of PdeGATA3 results in a dwarf phenotype in poplar by promoting the expression of PdeSTM and altering the content of gibberellins.Tree Physiology,2022,
- The chromosome-scale genome sequence of Triadica sebifera provides insight into fatty acids and anthocyanin biosynthesis.Communications Biology,2022,
- Phosphate (Pi) stress-responsive transcription factors PdeWRKY6 and PdeWRKY65 regulate the expression of PdePHT1;9 to modulate tissue Pi concentration in poplar.The Plant Journal,2022,(111):1753-1767.
- The transcription factor WRKY75 regulates the development of adventitious root, lateral bud and callus by modulating hydrogen peroxide content in poplar.Journal of Experimental Botany,2021,
- Transcriptomic and metabolic analysis of fruit development and identification of genes involved in raffinose and hydrolysable tannin biosynthesis in walnuts.Journal of Agricultural and Food Chemistry,2021,69(28):8050-8062.
- Xiao Z, Zhang Y, Liu M, Zhan C, Yang X, Nvsvrot T,Wang N*.Coexpression analysis of a large-scale transcriptome identified a calmodulin-like protein regulating the development of adventitious roots in poplar.Tree Physiology.2020(40):10:1405-1419https://doi.org/10.1093/treephys/tpaa078.
