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姓 名:苏培森
学 历 :博士研究生 职 称:讲师 院系部门:智慧农业系 专 业:植物科学与技术 联系方式: Email : pssu2014@163.com |
个人简介
苏培森,男、中共党员,博士,2020年毕业山东农业大学。主要研究方向:小麦赤霉病抗性机理研究:借助多组学、全基因组关联分析(GWAS)及突变体等手段,挖掘小麦赤霉病抗性相关基因,并揭示其抗性机制,通过基因编辑等手段,创制小麦抗赤霉病材料。此外,鉴定能抑制小麦赤霉病天然代谢产物,并探索其应用价值。短柄草生育期调控机制解析:通过筛选短柄草突变体,克隆调控其与生育期相关基因,并通过分子生物学手段阐释其调控机制。纳米材料在小麦生育期及抗病过程中功能探索: 筛选不同纳米材料,挖掘对小麦发育及抗病起作用的材料,并揭示其调控机制及应用价值。
教学工作
主要讲授智慧农业导论、作物科学研究进展、作物遗传育种、作物基因工程与原理、作物育种学实验。
研究方向
1.小麦农艺性状关键调控基因的挖掘及分子机制解析
2.小麦抗赤霉病天然代谢产物的挖掘与应用
3.纳米材料在小麦抗病过程中功能作用
科研项目
1. 山东省科技厅, 山东省自然科学基金, ZR2022QC129, 小麦黄酮醇合成酶基因FLS 抗赤霉病分子机制解析, 2023-01 至 2025-12, 15万元, 在研, 主持
2. 聊城大学, 博士启动基金, 318052018, 小麦黄酮醇合成酶基因抗赤霉病的分子机制, 2021-01 至2023-12, 20万元, 主持
3. 山东农业大学作物生物学国家重点实验室, 开放课题, 2021KF03, 小麦黄酮醇合成酶基因抗赤霉病的分子机制研究, 2021-01 至 2023-12, 4万元, 在研, 主持
4. 国家自然科学基金委员会, 面上项目, 31871610, 长穗偃麦草抗叶锈病基因Lr19的图位克隆及与Fhb7的聚合利用, 2019-01-01 至 2022-12-31, 60万元, 参与
5. 国家自然科学基金委员会, 青年科学基金项目, 31701413, CCCH型锌指蛋白TaZF1调控小麦对赤霉病抗性反应的分子机制研究, 2018-01-01 至 2020-12-31, 25万元,参与
代表性成果
1. Peisen Su; Chao Sui; Shuhan Wang; Xiaoqian Liu; Guangxu Zhang; Haonan Sun; Kun Wan; Jun Yan; Shangjing Guo; Genome-wide evolutionary analysis of AUX/IAA gene family in wheat identifies a novel gene TaIAA15-1A regulating flowering time by interacting with ARF, International Journal of Biological Macromolecules, 2022, 227: 285-296
2. Su Peisen; Sui Chao; Niu Yufei; Li Jingyu; Wang Shuhan; Sun Fanting; Yan jun; Guo Shangjing; Comparative transcriptomic analysis and functional characterization reveals that the class III peroxidase gene TaPRX-2A regulates drought stress tolerance in transgenic wheat, Frontiers in plant science, 2023, 14
3. Peisen Su; Chao Sui; Jingyu Li; Kun Wan; Haonan Sun; Shuhan Wang; Xiaoqian Liu; Shangjing
Guo ; The Aux/IAA protein TaIAA15-1A confers drought tolerance in Brachypodium by regulating
abscisic acid signal pathway, Plant Cell Reports, 2022, 42(2): 385-394
4. Chao Sui†, Shanshan Cheng†, Deying Wang, Lujia Lv, Huiran Meng, Mengxue Du, Jingyu Li, Peisen Su*, Shangjing Guo*. Systematic identification and characterization of the soybean (Glycine max) B-box transcription factor family. Biotechnology & Biotechnological Equipment. 2023.
5. Lanfei Zhao*; Peisen Su*; Bingqian Hou; Hongyan Wu; Yanhui Fan; Wen Li; Jinxiao Zhao; Wenyang Ge; Shoushen Xu; Shiwen Wu; Xin Ma; Anfei Li; Guihua Bai; Hongwei Wang; Lingrang Kong;The Black Necrotic Lesion Enhanced Fusarium graminearum Resistance in Wheat, Frontiers in Plant Science, 2022, 13
6. Hu J, Xiao G, Jiang P, Zhao Y, Zhang G, Ma X, Yao J, Xue L, Su P*, Bao Y*. QTL detection for bread wheat processing quality in a nested association mapping population of semi-wild and domesticated wheat varieties. BMC Plant Biol. 2022, 22(1):129.
7. Peisen Su; Lanfei Zhao; Wen Li; Jinxiao Zhao; Jun Yan; Xin Ma; Anfei Li; Hongwei Wang; Lingrang Kong ; Integrated metabolo‐transcriptomics and functional characterization reveals that the wheat auxin receptor TIR1 negatively regulates defense against Fusarium graminearum, Journal of Integrative Plant Biology, 2020, 63(2): 340-352
8. Su p., Yan J., Li W., Wang L., Zhao J., Ma X., Li A., Wang H., Kong L. A member of wheat class III peroxidase gene family, TaPRX-2A, enhanced the tolerances of drought and salt stresses. BMC Plant Biology, 2020, 20:392.
9. Su P., Guo X., Fan Y., Wang L., Yu G., Ge W., Zhao L., Ma X., Wu J., Li A., Wang H., Kong, L.. Application of Brachypodium genotypes to the analysis of type II resistance to Fusarium head blight (FHB). Plant Science, 2018,272: 255-266.
10. Yan J*., Su P*., Li W., Xiao G., Zhao Y., Ma X., Wang H., Nevo E., Kong, L. Genome-wide and evolutionary analysis of the class III peroxidase gene family in wheat and Aegilops tauschii reveals that some members are involved in stress responses. BMC genomics, 2019, 20(1): 666.
11. Wang H., Sun S., Ge W., Zhao L., Hou B., Wang K., Lyu Z., Chen L., Xu S., Guo J., Li M., Su P., et al. Horizontal gene transfer of Fhb7 from fungus underlies Fusarium head blight resistance in wheat. Science, 2020, doi:10.1126/science.aba5435.
12. Wang H., Yin H., Jiao C., Fang X., Wang G., Li G., Ni F., Li P., Su P., et al. Sympatric speciation of wild emmer wheat driven by ecology and chromosomal rearrangements. Proceedings of the National Academy of Sciences. 2020.
13. Yan J., Su P., Wei Z., Nevo E., Kong, L. Genome-wide identification, classification, evolutionary analysis and gene expression patterns of the protein kinase gene family in wheat and Aegilops tauschii. Plant molecular biology, 2017, 95(3): 227-242.
14. Zhao L., Ma X., Su P., Ge W., Wu H., Guo X., Li A, Wang H, Kong L. Cloning and characterization of a specific UDP-glycosyltransferase gene induced by DON and Fusarium graminearum. Plant cell reports, 2018, 37(4): 641-652.
15. Hu L., Mu J., Su P., Wu H., Yu G., Wang G., Wang L., Ma X., Li A., Wang H., Zhao L., Kong L. Multi-functional roles of TaSSI2 involved in Fusarium head blight and powdery mildew resistance and drought tolerance. Journal of integrative agriculture, 2018, 17(2): 368-380.
16. Fan Y., Hou B., Su P., Wu H., Wang G, Kong L., Ma X., Wang H. Application of BSMV induced gene silencing (VIGS) for identification of FHB resistant genes. Journal of Integrative Agriculture 2018, 17(0): 60345-7
17. 苏培森; 郭尚敬; 申铜飞; 宋勇; 张杰昌 ; 小麦赤霉病综合防治技术规程, DB 3715/T 8—2022, 聊城市农业农村局, 2022-10-26 (标准)
18. 苏培森,葛文扬,王宏伟,孔令让. 小麦-禾谷镰孢菌互作机制的研究进展.中国科学. 2021. /doi.org/10. 1360/SSV-2020-0355.
19. 苏培森,宋勇,李玉保,郭尚敬.新农科背景下智慧农业专业人才培养模式探究[J].智慧农业导刊,2021,1(05):43-45+50.
20.苏培森.小麦赤霉病抗病机制研究进展[J].生物技术进展,2021,11(05):599-609.DOI:10.19586/j.2095-2341.2021.0111.
21. 王姝涵,刘晓倩,隋 超,孙浩楠,万坤,霍勇伟,苏培森。不同小麦栽培品种花青素含量测定及其调控基因表达模式分析。分子植物育种,2022.
22. 苏培森, 隋 超,颜君,王晨,韩磊,王舒涵,刘晓倩,郭尚敬。不同小麦花青素含量多样性及其合成基因表达分析。山东农业科学,2022.
23. 苏培森, 隋 超,郭尚敬,臧娇娇,满全财. 过氧化物酶基因TaPRX-2A调控小麦穗长的功能分析. 麦类作物学报,2022.
24. 苏培森, 王彪, 尹华燕, 王宏伟, 孔令让, 李安飞. 小麦TaTGA2基因的克隆及赤霉病抗性功能验证.中国科技论文在线,2017, 10 (9).
25. 苏培森,李安飞,王宏伟,孔令让.禾谷镰刀菌对二穗短柄草的致病性及侵染过程. 山东农业大学学报, 2017, 48(3): 379-383.
26. 郭秀秀,王亮,苏培森,虞光辉,葛文扬,王宏伟,孔令让,李安飞,TaWRKY2 在短柄草中的抗赤霉病功能鉴定. 山东农业大学学报, 2017, 48(4): 570-575.
27. 吴洪燕,虞光辉,王亮,范艳慧,苏培森,王宏伟,李安飞,孔令让. 利用BSMV-VIGS鉴定TaPAL2的抗赤霉病功能.中国科技论文在线. 2016.
28. 范艳慧,吴红燕,苏培森,孔令让,马信,王宏伟. BSMV-VIGS技术在小麦抗赤霉病基因鉴定中的应用. 中国科技论文在线. 2018.
