姓 名 | 肖浪涛 | 性 别 | 男 | |||
职称/职务 | 二级教授 | 学历/学位 | 研究生/博士 | |||
专 业 | 植物学 | 博导/硕导 | 博导 | |||
联系方式 | ltxiao@hunau.edu.cn | |||||
研究领域与研究方向: 1. 植物激素高灵敏测定新技术与新方法 2. 植物激素作用分子机制及植物生长调节剂 | ||||||
个人所获荣誉: 2012:国务院政府特殊津贴专家 (国务院) 2003:全国留学回国人员先进个人、留学回国人员成就奖(中组部等) 2013:中国侨界创新人才奖 (中国侨联) 2019:湖南省芙蓉教学名师(湖南省教育厅) 2019:湖南省教学成果一等奖,第一完成人(湖南省教育厅) 2017:湖南省优秀教师(湖南省人力资源与社会保障厅、湖南省教育厅) 2016:湖南省教学成果一等奖,第一完成人(湖南省教育厅) 2011:湖南省优秀研究生指导教师 (湖南省教育厅) 2010:湖南省科技进步一等奖,第一完成人(湖南省人民政府) 2010:湖南省教学成果一等奖,第一完成人(湖南省教育厅) 2001:湖南省高校优秀共产党员(中共湖南省委高教工委) 1999:荣立二等功(湖南省人事厅) | ||||||
学术兼职: 中国植物生理与分子生物学学会常务理事;湖南省植物生理与分子生物学学会理事 长;湖南省植物学会副理事长;植物学报副主编;植物生理学报编委。
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学习与工作经历: 1980.09-1984.06:原湖南农学院园艺系,获学士学位 1984.09-1987.06:原湖南农学院园艺系,获硕士学位 1991.09-1994.06:原湖南农学院基础部,获博士学位 1995.01-1998.02:美国加利福尼亚大学河滨分校博士后 1998.03-1998.07:原湖南农业大学理学院副教授 2008.12-2015.03:第六届国务院学科评议组 成员 1998.07-至今: 湖南农业大学生物科学技术学院教授 | ||||||
主讲课程: 本科生: 《植物生长物质》(国家一流线下课程)《植物的魅力与奥秘》(国家一流线上课程) 硕士研究生: 《现代生物科学研究导论》 博士研究生: 《现代生物科学研究前沿》 | ||||||
科研成果(近五年): 1. 代表性学术论文、著作 [1] Tang X Y, Zhong W P, Wang K M, Gong X, Xia Y N, Nong J Y, Xiao L T, Xia S T. Regulation of Grain Chalkiness and Starch Metabolism by FLO2 Interaction Factor 3, a bHLH Transcription Factor in Oryza sativa [J]. International Journal of Molecular Sciences, 2023, 24(16): 12778.DOI: 10.3390/ijms241612778. [2] Luo W G, Liang Q W, Su Y, Huang C, Mo B X, Yu Y, Xiao L T. Auxin inhibits chlorophyll accumulation through ARF7-IAA14-mediated repression of chlorophyll biosynthesis genes in Arabidopsis [J]. Frontiers in Plant Science, 2023, 14, 12.DOI: 10.3389/fpls.2023.1172059. [3] Wang H F, Lu Z C, Xu Y T, Zhang J, Han L, Chai M F, Wang Z Y, Yang X P, Lu S Y, Tong J H, Xiao L T, Wen J Q, Mysore K S, Zhou C E. Roles of very long-chain fatty acids in compound leaf patterning in Medicago truncatula [J]. Plant Physiol, 2023, 191(3): 1751-70.DOI: 10.1093/plphys/kiad006. [4] Wu Z H, Wang R Z, Sun Z L, Su Y, Xiao L T. A mass spectrometry imaging approach on spatiotemporal distribution of multiple alkaloids in Gelsemium elegans [J]. Frontiers in Plant Science, 2022, 13, 15.DOI: 10.3389/fpls.2022.1051756. [5] Xiong Y Z, Cao Y A, Li P, Li M Q, Wang R Z, Xiao L T, Liu X. Synthesis, characterization and absorption evaluation of bifunctional monomer magnetic molecularly imprinted polymers nanoparticles for the extraction of 6-benzylaminopurine from vegetables [J]. Food Chem, 2022, 386, 9.DOI: 10.1016/j.foodchem.2022.132792. [6] Huang C, Liu D, Li Z A, Molloy D P, Luo Z F, Su Y, Li H O, Liu Q, Wang R Z, Xiao L T. The PPR protein RARE1-mediated editing of chloroplast accD transcripts is required for fatty acid biosynthesis and heat tolerance in Arabidopsis [J]. Plant Communications,2023, 4(1): 11.DOI:10.1016/j.xplc.2022.100461. [7] Hu A Q, Zhao Q Q, Chen L, Zhao J P, Wang Y H, Feng K L, Wu L, Xie M, Zhou X M, Xiao L T, Ming Z H, Zhang M, Yao R F. Identification of Conserved and Divergent Strigolactone Receptors in Sugarcane Reveals a Key Residue Crucial for Plant Branching Control [J]. Frontiers in Plant Science, 2021, 12, 12.DOI: 10.3389/fpls.2021.747160. [8] Liu Q, Xu J K, Zhu Y H, Mo Y X, Yao X F, Wang R Z, Ku W Z, Huang Z G, Xia S T, Tong J H, Huang C, Su Y, Lin W H, Peng K Q, Liu C M, Xiao L T. The Copy Number Variation of OsMTD1 Regulates Rice Plant Architecture [J]. Frontiers in Plant Science, 2021, 11, 11.DOI: 10.3389/fpls.2020.620282. [9] Fang J J, Guo T T, Xie Z W, Chun Y, Zhao J F, Peng L X, Zafar S A, Yuan S J, Xiao L T, Li X Y. The URL1-ROC5-TPL2 transcriptional repressor complex represses the ACL1 gene to modulate leaf rolling in rice [J]. Plant Physiol, 2021, 185(4): 1722-44.DOI: 10.1093/plphys/kiaa121. [10] Xie Q, Xu J K, Huang K, Su Y, Tong J H, Huang Z G, Huang C, Wei M L, Lin W H, Xiao L T. Dynamic formation and transcriptional regulation mediated by phytohormones during chalkiness formation in rice [J]. BMC Plant Biol, 2021, 21(1): 22.DOI: 10.1186/s12870-021-03109-z. [11] Su Y, Xiao L T. 3D visualization and volume-based quantification of rice chalkiness in vivo by using high resolution Micro-CT [J]. Rice, 2020, 13(1): 12.DOI: 10.1186/s12284-020-00429-w. [11] Chen H H, Ruan J X, Chu P, Fu W, Liang Z W, Li Y, Tong J H, Xiao L T, Liu J, Li C L, Huang S Z. AtPER1 enhances primary seed dormancy and reduces seed germination by suppressing the ABA catabolism and GA biosynthesis in Arabidopsis seeds [J]. Plant J, 2020, 101(2): 310-23.DOI: 10.1111/tpj.14542. [12] Zhang T, Li W J, Xie R X, Xu L, Zhou Y, Li H L, Yuan C C, Zheng X L, Xiao L T, Liu K D. CpARF2 and CpEIL1 interact to mediate auxin-ethylene interaction and regulate fruit ripening in papaya [J]. Plant J, 2020, 103(4): 1318-37.DOI: 10.1111/tpj.14803. [13] Chen L, Huang X X, Zhao S M, Xiao D W, Xiao L T, Tong J H, Wang W S, Li Y J, Ding Z J, Hou B K. IPyA glucosylation mediates light and temperature signaling to regulate auxin-dependent hypocotyl elongation in Arabidopsis [J]. PNAS, 2020, 117(12): 6910-7.DOI: 10.1073/pnas.2000172117. [14] Zhang X, Liu L, Wang H F, Gu Z Q, Liu Y F, Wang M M, Wang M, Xu Y T, Shi Q B, Li G, Tong J H, Xiao L T, Wang Z Y, Mysore K S, Wen J Q, Zhou C E. MtPIN1 and MtPIN3play dual roles in regulation of shade avoidance response under different environments in Medicago truncatula [J]. International Journal of Molecular Sciences, 2020, 21(22): 16.DOI: 10.3390/ijms21228742. [15] Huang C, David M P, Cao Z L, Xiao L T. Mutation of chloroplast CHLM contributes to down-regulation of multiple stress response genes in Arabidopsis [J]. Plant Growth Regul, 2020, 91(2): 209-19.DOI: 10.1007/s10725-020-00600-9. [16] Lyu G Z, Li D B, Xiong H, Xiao L T, Tong J H, Ning C J, Wang P, Li S S. Quantitative Proteomic Analyses Identify STO/BBX24-Related Proteins Induced by UV-B [J]. International Journal of Molecular Sciences, 2020, 21(7): 23.DOI: 10.3390/ijms21072496. [17] Chen H H, Tong J H, Fu W, Liang Z W, Ruan J X, Yu Y G, Song X, Yuan L B, Xiao L T, Liu J, Cui Y H, Huang S Z, Li C L. The H3K27me3 demethylase RELATIVE OF EARLY FLOWERING6 suppresses seed dormancy by inducing abscisic acid catabolism [J]. Plant Physiol, 2020, 184(4): 1969-78.DOI: 10.1104/pp.20.01255. [18] Yu L, Gao B, Li Y L, Tan W J, Li M K, Zhou L P, Peng C L, Xiao L T, Liu Y H. The synthesis of strigolactone is affected by endogenous ascorbic acid in transgenic rice for L-galactono-1, 4-lactone dehydrogenase suppressed or overexpressing [J]. J Plant Physiol, 2020, 246, 13.DOI: 10.1016/j.jplph.2020.153139. [19] Li S, Wang N, Ji D, Zhang W, Wang Y, Yu Y, Zhao S, Lyu M, You J, Zhang Y, Wang L, Wang X, Liu Z, Tong J, Xiao L, Bai M-Y, Xiang F. A GmSIN1/GmNCED3s/GmRbohBs feed-forward loop acts as a signal amplifier that regulates root growth in soybean exposed to salt stress [J]. The Plant cell, 2019, 31(9): 2107-30.DOI: 10.1105/TPC.18.00662. [20] Guo T T, Wang D F, Fang J J, Zhao J F, Yuan S J, Xiao L T, Li X Y. Mutations in the rice OsCHR4 gene, encoding a CHD3 family chromatin remodeler, induce narrow and rolled leaves with increased cuticular wax [J]. International Journal of Molecular Sciences, 2019, 20(10): 19.DOI: 10.3390/ijms20102567. [21] Zhou C N, Han L, Zhao Y, Wang H F, Nakashima J, Tong J H, Xiao L T, Wang Z Y. Transforming compound leaf patterning by manipulating REVOLUTA in Medicago truncatula [J]. Plant J, 2019, 100(3): 562-71.DOI: 10.1111/tpj.14469. [22] Ding P C, Fang L L, Wang G L, Li X, Huang S, Gao Y K, Zhu J T, Xiao L T, Tong J H, Chen F G, Xia G M. Wheat methionine sulfoxide reductase A4.1 interacts with heme oxygenase 1 to enhance seedling tolerance to salinity or drought stress [J]. Plant Mol Biol, 2019, 101(1-2): 203-20.DOI: 10.1007/s11103-019-00901-2. [23] Zhang K, Wang R Z, Zi H L, Li Y P, Cao X W, Li D M, Guo L, Tong J H, Pan Y Y, Jiao Y L, Liu R Y, Xiao L T, Liu X G. AUXIN RESPONSE FACTOR3 Regulates Floral Meristem Determinacy by Repressing Cytokinin Biosynthesis and Signaling [J]. Plant Cell, 2018, 30(2): 324-46.DOI: 10.1105/tpc.17.00705. [24] Su Y, Li W, Huang Z G, Wang R Z, Luo W G, Liu Q, Tong J H, Xiao L T. Sensitive and high throughput quantification of abscisic acid based on quantitative real time immuno-PCR [J]. Plant Methods, 2018, 14, 10.DOI: 10.1186/s13007-018-0371-y. [25] Li P, Chang T G, Chang S Q, Ouyang X, Qu M N, Song Q F, Xiao L T, Xia S T, Deng Q Y, Zhu X G. Systems model-guided rice yield improvements based on genes controlling source, sink, and flow [J]. Journal of Integrative Plant Biology, 2018, 60(12): 1154-80.DOI: 10.1111/jipb.12738 [26] 肖浪涛, 王三根. 《植物生理学》. 中国农业出版社. 2019. [27] 李玲, 肖浪涛, 谭伟明, 王若仲(参编). 《现代植物生长调节剂技术手册》. 化学 工业出版社. 2018. [28] Su Y, Xia S, Wang R, Xiao L. Book Chapter 13:Phytohormonal quantification based on biological principles. In: Jiayang Li, Chuanyou Li, Steven M Smith(Eds). Hormone metabolism and signalling in plants. Academic Press is an imprint of Elsevier, United States of America, 2017,ISBN: 978-0-12-811562-6. http://dx.doi.org/10.1016/B978-0-12- 811562-6.00013-X
2. 专利及奖励 [1] 肖浪涛,苏益,蔺万煌,谢琴,魏曼琳. 基因 OsR498G1018986900.01 及其编码的蛋白在调控水稻垩白中的应用. ZL 2022101512459 [2] 肖浪涛,罗洲飞,徐梦薇,王若仲, 黄超.一种生长素荧光染料及其制备方法与应 用.ZL 2020106798881 [3] 肖浪涛,刘清,许金科.一种降低水稻稻米垩白率的组合物及其制备方法与应用. ZL2021102553184 [4] 肖浪涛,苏益,蔺万煌. 一种组合物及其制备方法与应用. ZL 2021115073950 [5] 肖浪涛,苏益,寻敏. 氟啶酮作为独脚金内酯抑制剂的应用. ZL 2021104063480 [6] 肖浪涛,苏益,寻敏. 苄草唑作为独脚金内酯抑制剂的应用. ZL 2021104076226 [7] 肖浪涛,苏益,肖理为. 苄草唑在促进水稻蘖芽分化和再生稻种植中的应用 ZL 2021104060711 [8] 肖浪涛,苏益,肖理为. 氟啶酮在促进水稻蘖芽分化和再生稻种植中的应用. ZL 2021104226064 [9] 肖浪涛,苏益,王若仲,蔺万煌,童建华, 赵静, 黄超. 一种促进再生稻的根生长的生长调节剂及其施用方法. ZL 2018106006762 [10]肖浪涛,肖湲,苏益,王若仲. 一种人工合成小分子肽、含有该人工合成小分子肽的 生长调节剂及其应用方法. ZL 201910401957X [11]肖浪涛,苏益,罗为桂.一种降低植物小分子信号肽假阳性率的 法 .ZL 2019113726955 [12]肖浪涛苏益,黄志刚,蔺万煌,王若仲,罗为桂. 一种高效的植物双元诱导基因表达重组质粒. ZL 2017101740539 [13]肖浪涛,苏益,蔺万煌,王若仲,罗为桂. 一种用于植物生长素分离纯化的层析柱及分离方法. ZL 2018100154328 [14]肖浪涛,苏益,詹爽. 一种植物生长素受体 TIR1 修饰的生物传感器及其制备方法与应用. ZL 2019114136565 [15]肖浪涛,刘清,王若仲,彭克勤,李合松,童建华,苏益. OsmiR156f 基因在增加水稻有效分蘖并提高水稻单株产量中的应用. ZL2014108506454 [16]苏益, 肖浪涛, 马立英. 褪黑素在降低稻米垩白度中的应用. ZL 2021116603418 [17]肖浪涛,夏石头,蔺万煌,王若仲,黄志刚. 地方农业院校生物科学专业建设“六重”模式的探索与实践,湖南省教学成果奖,一等奖,2019
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研究项目(近五年): [1] 国家自然科学基金国际(地区)合作与交流项目:水稻再生关键基因及其调控机理研究(32261143733),2023.01-2025.12,主持 [2] 湖南农业大学拔尖人才计划项目,2017.07-2023.06,主持 |
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