申飞
2019年博士毕业于中国农业大学,意大利埃蒙德马赫基金会(Fondazione Edmund Mach)联合培养博士,主要从事园艺作物基因组学和基因组育种新方法研究,先后主持或参与多项国家自然基金项目,北京市自然基金项目以及多项北京市农林科学院项目。在国际顶尖期刊Nature,The Plant Journal,Plant Physiology, Molecular Ecology Resource等发表论文20余篇,总引用次数686,主要完成二倍体富士苹果基因组,中国李基因组以及广泛应用于异交作物的混池分析软件工具(BSATOS)。获得软件著作权3个,参与完成新品种3个。 Email: shenf1028@gmail.com Tel: +86-17812169160 Website: https://maypoleflyn.github.io/
研究方向
园艺植物基因组学
成果展示
主持/承担项目
[1] | 主持国家自然科学基金青年项目:MdWRKY7调控苹果轮纹病抗性的功能与机制解析 (2022.1-2024.12), 30万 |
[2] | 主持北京市自然科学基金: MdNDR1调控苹果轮纹病抗性的功能解析及育种标记开发(2021.1~2022.12), 10万 |
[3] | 主持北京农林科学院青年基金:LsLBD1调控生菜结球机理研究及育种标记开发 (2021.1~2022.12),20 万 |
[4] | 联合主持北京农林科学院创新能力联合课题:草莓香味物质γ-癸内酯合成调控关键基因挖掘(2020.1~2022.12),30万 |
[5] | 参与国家自然科学基金:苹果缺铁胁迫下铁素再分配效率及其调控途径研究,72万 |
[6] | 参与国家自然科学基金:亚细胞氧化还原及GSH稳态调控苹果实生树童性研究,65万 |
[7] | 中国博士后基金:IRT1巯基亚硝基化在调控植物缺铁中的作用,8万 |
[8] | 北京市农林科学院创新能力建设:基因编辑技术创新平台构建, 450万 |
发表文章(部分):
Google schoolar link:http://scholar.google.com/citations?user=3Gtxm6AAAAAJ&hl=zh-CN Publons link: https://publons.com/researcher/4867668/fei-shen/publications/
[1] | Shen, F., Huang, Z., Zhang, B., Wang, Y., Zhang, X., Wu, T., Xu, X., Zhang, X., & Han, Z.(2019). Mapping gene markers for apple fruit ring rot disease resistance using a multi-omics approach. G3: Genes, Genomes, Genetics, 9(5), 1663–1678. (IF=3.01) |
[2] | Shixiao Xu, Yongle Ding, Juntao Sun, Zhiqiang Zhang, Zhaoyun Wu, Tiezhao Yang, Fei Shen# and Gang Xue# A high-quality genome assembly of Jasminum sambac provides insight into floral trait formation and Oleaceae genome evolution. (2021). Molecular Ecology Resource (In press). (Corresponding author) (IF=7.09) |
[3] | Li X#, Shen F#, Xu X, Zheng Q, Wang Y, Wu T, Li W, Qiu C, Xu X, Han Z, Zhang X (2021). An HD-ZIP transcription factor, MxHB13, integrates auxin-regulated and juvenility-determined control of adventitious rooting in Malus xiaojinensis. The Plant Journal. 2021 Jul 4. (doi: 10.1111/tpj.15406) (IF=6.14) (co-first author) |
[4] | Zhenyu Huang, #, Fei Shen#, Yuling Chen, Ke Cao, Lirong Wang (2021). Chromosome scale Genome Assembly and Population Genomic Analysis Provide Insights into the Adaptation, Domestication, and Flavonoid Metabolism of Chinese Plum (Prunus salicina Lindl.). The Plant Journal. (In press) (IF=6.14) (co-first author) |
[5] | Zhao, J.#, Shen, F# , Gao, Y., Wang, D., & Wang, K. (2019). Parallel Bud Mutation Sequencing Reveals that Fruit Sugar and Acid Metabolism Potentially Influence Stress in Malus. International Journal of Molecular Sciences, 20(23), 5988. (IF=5.9) |
[6] | Huang, Z# ., Shen, F.# , Chen, Y., Cao, K., & Wang, L. (2021). Preliminary Identification of Key Genes Controlling Peach Pollen Fertility Using Genome-Wide Association Study. Plants, 10(2), 242. (IF=3.18) |
[7] | Xiao Wei#, Fei Shen#, Qiuping Zhang, Ning Liu, Yuping Zhang, Ming Xu, Shuo Liu, Yujun Zhang, Xiaoxue Ma, Weisheng Liu (2021). Genetic diversity analysis of Chinese plum (Prunus salicina L.) based on whole-genome resequencing. Tree Genetics & Genomes 17 (3), 1-10 (IF=2.01) |
[8] | Wensheng Wang, Ramil Mauleon, …, Fei Shen, et al., (2018). Genomic variation in 3,010 diverse accessions of Asian cultivated rice. Nature. 7703(557): 43-49. (IF=42.0) |
[9] | Zheng, W., Shen, F., Wang, W., Wu, B., Wang, X., Xiao, C., Tian, Z., Yang, X., Yang, J., Wang, Y., & others. (2020). Quantitative trait loci-based genomics-assisted prediction for the degree of apple fruit cover color. The Plant Genome, 13(3), e20047. (IF=4.06) |
[10] | Wu, B., Shen, F., Chen, C. J., Liu, L., Wang, X., Zheng, W. Y., Deng, Y., Wang, T., Huang, Z. Y., Xiao, C., & others. (2021). Natural variations in a pectin acetylesterase gene, MdPAE10, contribute to prolonged apple fruit shelf life. The Plant Genome, e20084. (IF=4.06) |
[11] | Liu, J., Shen, F., Xiao, Y., Fang, H., Qiu, C., Li, W., Wu, T., Xu, X., Wang, Y., Zhang, X., & others. (2020). Genomics-assisted prediction of salt and alkali tolerances and functional marker development in apple rootstocks. BMC Genomics, 21(1), 1–16. (IF=3.59) |
[12] | Zheng, C., Shen, F., Wang, Y., Wu, T., Xu, X., Zhang, X., & Han, Z. (2020). Intricate genetic variation networks control the adventitious root growth angle in apple. BMC Genomics, 21(1), 1–18 (IF=3.59) |
[13] | Wang, X., Shen, F., Gao, Y., Wang, K., Chen, R., Luo, J., Yang, L., Zhang, X., Qiu, C., Li, W., & others. (2020). Application of genome-wide insertion/deletion markers on genetic structure analysis and identity signature of Malus accessions. BMC Plant Biology, 20(1), 1–13 |
[14] | Wu, B., Shen, F., Wang, X., Zheng, W. Y., Xiao, C., Deng, Y., Wang, T., Huang, Z. Y., Zhou, Q., Wang, Y., & others. (2020). Role of MdERF3 and MdERF118 natural variations in apple flesh firmness/crispness retainability and development of QTL-based genomics-assisted prediction. Plant Biotechnology Journal. 19 (5), 1022-1037. (IF=9.1) |
[15] | Jia, D., Shen, F., Wang, Y., Wu, T., Xu, X., Zhang, X., & Han, Z. (2018). Apple fruit acidity is genetically diversified by natural variations in three hierarchical epistatic genes: MdSAUR37, MdPP2CH and MdALMTII. The Plant Journal, 95(3), 427–443. (IF=6.14) |
获得软件著作权:
[1] | 软件著作权:‘基于二代测序的混池测序分析软件V1.0 (BSATOS),登记号码2018SRBJ0344. |
[2] | 软件著作权:‘基于二代测序的混池测序分析软件V1.0 (BSATOS),登记号码2018SRBJ0344. |
[3] | 软件著作权:‘基于二代测序的F1分离群体混池RNA-seq分析软件,登记号码2019SRBJ0410. |
获得植物新品种保护证书:
[1] | 植物新品种权证书:‘玉玲珑1号’,品种权号:CNA20180035.5,第二完成人 |
[2] | 植物新品种证书:‘中农51’,品种权号:CNA20180026.6,第八完成人 |
[3] | 植物新品种证书:‘中农101’,品种权号:CNA20170302.2,第七完成人 |