华营鹏 博士
副教授(直聘)
2017.07-2019.03���:湖南农业大学���,资源环境学院植物营养学专业���,教师;
2019.04-至今�����:百老汇官网4001�����,教师���。
● 研究兴趣�����、领域���:
作物(小麦/油菜)养分逆境抗性的生理����、遗传与分子生物学机制等���。
● 开设的课程����:
本科生《植物营养学》
研究生《研究生论文写作指导》���、《现代生物学实验原理与技术》
● 主持的项目�����:
1. 国家自然科学基金青年基金���,镉的亚细胞再分配调控油菜镉毒抗性的分子生理机制���,318019226���,26万元�����,2019-2021;
2. 国家自然科学基金联合基金重点项目子课题����,油菜无机和有机氮高效再分配协同提高氮效率的优异基因挖掘及机制解析���,U21A20236����,75万元����,2022-2025;
3. 河南省科技攻关项目�����,油菜双组分高亲和硝酸盐转运系统NRT2.1/NAR2.1核心基因的鉴定与功能解析�����,10万元�����,2020-2021;
4. 百老汇官网4001青年拔尖人才启动经费���,50万元���,2019-2023���。
● 代表性论著���:
1. 湖南省自然科学奖二等奖(第3完成人)���,油菜氮素高效利用的生物学机制����,20202020-Z2-216-R03;
2. Zhou T, Yue CP, Liu Y, Zhang TY, Huang JY, Hua YP*. Multiomics reveal pivotal roles of sodium translocation and compartmentation in regulating salinity resistance in allotetraploid rapeseed. Journal of Experimental Botany 2021, 72(15):5687-5708.
3. Zhang ZH, Zhou T, Tang TJ, Song HX, Guan CY, Huang JY, Hua YP*. A multiomics approach reveals the pivotal role of subcellular reallocation in determining rapeseed resistance to cadmium toxicity. Journal of Experimental Botany 2019, 70(19):5437-5455.
4. Hua YP, Zhou T, Ding G, Yang Q, Shi L, Xu F*. Physiological, genomic and transcriptional diversity in responses to boron deficiency in rapeseed genotypes. Journal of Experimental Botany 2016, 67(19):5769-5784.
5. Hua YP, Zhang D, Zhou T, He M, Ding G, Shi L, Xu F*. Transcriptomics-assisted quantitative trait locus fine mapping for the rapid identification of a nodulin 26-like intrinsic protein gene regulating boron efficiency in allotetraploid rapeseed. Plant, Cell and Environment 2016, 39(7):1601-18.
6. Shen DD#, Hua YP#, Huang JY, Yu ST, Wu TB, Zhang Y, Chen HL, Yue CP*. Multiomic analysis reveals core regulatory mechanisms underlying steroidal glycoalkaloid metabolism in potato tubers. Journal of Agricultural and Food Chemistry 2021, doi: 10.1021/acs.jafc.1c06867.
7. Hua YP, Zhou T, Song HX, Guan CY, Zhang ZH*. Integrated genomic and transcriptomic insights into the two-component high-affinity nitrate transporters in allotetraploid rapeseed. Plant and Soil 2018, 427:245-268.
8. Hua YP, Feng YN, Zhou T, Xu FS*. Genome-scale mRNA transcriptomic insights into the responses of oilseed rape (Brassica napus L.) to varying boron availabilities. Plant and Soil 2017, 416:205-225
9. Zhou T#, Hua YP#, Zhang B, Zhang X, Zhou Y, Shi L, Xu F*. Low-boron tolerance strategies involving pectin-mediated cell wall mechanical properties in Brassica napus. Plant and Cell Physiology 2017, 58(11):1991-2005.
10. Zhou T#, Hua YP#, Xu FS*. Involvement of reactive oxygen species and Ca2+ in the differential responses to low-boron in rapeseed genotypes. Plant and Soil 2017, 419:219-236.
11. Zhang ZH, Zhou T, Liao Q, Yao JY, Liang GH, Song HX, Guan CY, Hua YP*. Integrated physiologic, genomic and transcriptomic strategies involving the adaptation of allotetraploid rapeseed to nitrogen limitation. BMC Plant Biology 2018, 18(1):322.
12. Feng YN, Cui JQ, Zhou T, Liu Y, Yue CP, Huang JY*, Hua YP*. Comprehensive dissection into morpho-physiologic responses, ionomic homeostasis, and transcriptomic profiling reveals the systematic resistance of allotetraploid rapeseed to salinity. BMC Plant Biology 2020, 20(1):534.
13. Zhou T#, Yue CP#, Huang JY, Cui JQ, Liu Y, Wang WM, Tian C, Hua YP*. Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed. BMC Plant Biology 2020, 20(1):151.
14. Zhou T#, Yue CP#, Zhang TY, Liu Y, Huang JY, Hua YP*. Integrated ionomic and transcriptomic dissection reveals the core transporter genes responsive to varying cadmium abundances in allotetraploid rapeseed. BMC Plant Biology 13, 21(1):372.
15. Zheng LW, Ma SJ, Zhou T, Yue CP, Hua YP*, Huang JY*. Genome-wide identification of Brassicaceae B-BOX genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed. BMC Plant Biology 2021, 21(1):288.
16. Hua YP, Zhou T, Huang JY, Yue CP, Song HX, Guan CY, Zhang ZH*. Genome-wide differential DNA methylation and miRNA expression profiling reveals epigenetic regulatory mechanisms underlying nitrogen-limitation-triggered adaptation and use efficiency enhancement in allotetraploid rapeseed. International Journal of Molecular Sciences 2020, 21(22):8453.
17. Cui JQ#, Hua YP#, Zhou T, Liu Y, Huang JY, Yue CP. Global landscapes of the Na+/H+ antiporter (NHX) family members uncover their potential roles in regulating the rapeseed resistance to salt stress. International Journal of Molecular Sciences 2020, 21(10):3429.
18. Liao Q#, Tang TJ#, Zhou T, Song HX, Hua YP*, Zhang ZH*. Integrated transcriptional and proteomic profiling reveals potential amino acid transporters targeted by nitrogen limitation adaptation. International Journal of Molecular Sciences 2020, 21(6):2171.
19. Hua YP, Zhou T, Liao Q, Song HX, Guan CY, Zhang ZH*. Genomics-assisted identification and characterization of the genetic variants underlying differential nitrogen use efficiencies in allotetraploid rapeseed genotypes. Genes Genomes Genetics (Bethesda) 2018, 8(8):2757-2771.
● 联系方式�����:
E-mail: yingpenghua@zzu.edu.cn
