教师名录

薛红卫
职称:讲席教授

 

研究方向:

植物激素作用机理;

植物种子发育功能基因组学研究
 

电子信箱:
hwxue@sjtu.edu.cn

教育经历

  • 1991.7年毕业于上海华东师范大学生物学专业,获理学学士;
  • 1996.7年于中国科学院上海植物生理研究所获博士学位;
  • 1996.7-1998.12年在德国马普分子植物生理研究所从事博士后研究。

工作经历

  • 2019.1-现在,新葡的京集团35222vip,教授。
  • 1999.1-2018.12,中国科学院上海植物生理生态研究所副研究员、研究员(2002.10起)。期间曾任中国科学院上海植物生理生态研究所副所长(2005-2008年)、常务副所长(2008-2009年)、所长(2009-2014年);植物分子遗传国家重点实验室主任(2006-2017)。

主要人才项目/奖励

  • 1998年入选中国科学院“百人计划”
  • 2004年获“国家杰出青年科学基金”
  • 2006年获“中国青年科技奖”
  • 2009年入选百千万工程国家级人选
  • 2013年入选科技部”中青年科技领军人才”
  • 2016年入选国家“万人计划”科技领军人才
  • “国家重大研究计划项目”首席科学家(2012-2016年)
  • “国家自然科学基金委创新研究群体”负责人(2017-)
  • 上海市自然科学奖二等奖(排名第一,2006年)
  • 上海市科技进步奖二等奖(排名第一,2005年)

学术兼职

  • 现任中国植物生理与分子生物学会常务理事、细胞与发育专业委员会主任委员;上海遗传学会副理事长;新葡的京集团35222vip学术委员会主任,复旦大学植物科学研究所学术委员会主任;
  • Plant Cell & Environment副主编;Cell Research、Molecular Plant等编委。
  • 曾任上海植物生理学会理事长(2010-2014)。

研究领域及主要学术成果

       主要从事植物激素作用及种子发育调控机制的研究。在蛋白酶体及蛋白磷酸化参与激素作用、激素信号重要调控因子、激素间及激素与磷脂酰肌醇信号互作调控植物发育的分子机理、水稻种子发育的遗传和表观遗传调控机制等方面做出了系统性和原创性工作,形成了研究特色,推动了相关学科的发展,是植物信号调控领域的国际学术带头人。

       迄今发表论著2部,以通讯作者发表SCI论文70逾篇,包括Nature Communications, Cell Research (14篇),EMBO J,Cell Reports,Plant Cell (10篇)和Molecular Plant (12篇)等,并多次应邀在Current Opinion in Plant Biology 等撰写综述。先后承担了国家973、863和自然科学基金委、中国科学院、上海市的多项研究任务,做为首席科学家主持了“植物胚乳发育及储藏物质累积的分子调控机制研究”重大研究计划项目、国家自然科学基金委“高等植物开花时间多样性的分子机理”创新研究群体。

其它

  • 两次担任“香山会议”执行主席,对推动我国植物激素领域基础研究和学科发展做出了重要贡献。
  • 注重科研协作,在2000年成立了我国生物学领域第一个马普植物分子生理伙伴实验室,并推动了上海植物生理生态研究所和美国、英国等高校的实质性合。
  • 担任上海植物生理生态研究所所长期间,着力引进和培育青年人才,建设了一支一流科研团队,造就了多名领军人才;完善了科研结构和布局,部署前沿领域,营造潜心致研的科研环境,显著提升了学科创新能力和研究所的整体实力,为推动我国植物科学研究做出了贡献。

附:论文发表目录(按时间顺序)

研究论文 (通讯作者或第一作者)

  1. Chen SH, Zhou LJ, Xu P, and Xue HW*. SPOC domain-containing protein Leaf inclination3 interacts with LIP1 to regulate rice leaf inclination through auxin signaling. PLoS Genetics. 2018, DOI: 10.1371/journal.pgen.1007829.
  2. Zhao, Y.-F., Peng, T., Sun, H.-Z., Teotia, S., Wen, H.-L., Du, Y.-X., Zhang, J., Li, J.-Z., Tang, G.-L., Xue HW*, and Zhao QZ*. miR1432-OsACOT (Acyl-CoA thioesterase) module determines grain yield via enhancing grain filling rate in rice. Plant Biotechnol J, 2018, doi: 10.1111/pbi.13009.
  3. Qu L, Lin LB, and Xue HW*. Rice miR394 suppresses leaf inclination through targeting an F-box gene, LEAF INCLINATION 4. J Integrative Plant Biology, 2018, 10.1111/jipb.12713 .
  4. Chen HH, Qu L, Xu ZH, Zhu JK, and Xue HW*. EL1-like casein kinases suppress ABA signaling and responses by phosphorylating and destabilizing ABA receptors PYR/PYLs in Arabidopsis. Molecular Plant, 2018, 11(5), 706-719 doi: 10.1016/j.molp.2018.02.012.
  5. Yang BJ, Lin WH, Fu FF, Xu ZH, and Xue HW*. Receptor-like protein ELT1 promotes brassinosteroid signaling through interacting with and suppressing the endocytosis-mediated degradation of receptor BRI1. Cell Research, 2017, doi:10.1038/cr.2017.69.
  6. Zhou LJ, Xiao LT, and Xue HW*.Dynamic cytology and transcriptional regulation of rice lamina joint development. Plant Physiology, 2017, 174, 1728-1746 (Cover)
  7. Xu JJ, Zhang XF, and Xue HW*. Rice aleurone layer specific OsNF-YB1 regulates grain filling and endosperm development by interacting with an ERF transcription factor. J Experimental Botany, 2016, 67, 6399-6411.
  8. Tang Y, Zhao CY, Tan ST, and Xue HW*. Arabidopsis type II phosphatidylinositol 4-kinase PI4Kr5 regulates auxin biosynthesis and leaf margin serration through interacting with and affecting the cleavage of a membrane-bound NAC transcription factor. PLoS Genetics, 2016, 12(8): e1006252. 
  9. Chu YJ, Chen X, and Xue HW*. Ins(1,4,5)P3 suppresses protein degradation in plant vacuole by regulating SNX-mediated protein sorting. Molecular Plant, 2016, 9: 1440-1443.
  10. Deng T, Yao HY, Wang J, Wang J, Xue HW*, Zuo KJ*. GhLTPG1, a cotton GPI-anchored lipid transfer protein, regulates the transport of phosphatidylinositol monophosphates and cotton fiber elongation. Scientific Reports, 2016, 6:26829. 
  11. Yang BJ, Han XX, Xing MQ, Yin LL, Xu ZH, and Xue HW*.Arabidopsis PROTEASOME REGULATOR1 is required for auxin-mediated suppression of proteasome activity and regulates auxin signaling. Nature Communications, 2016, 7:11388.
  12. Wang YS, Yao HY*, and Xue HW*.Lipidomic profiling analysis reveals the dynamics of phospholipid molecules inArabidopsis thaliana seedling growth. J Integrative Plant Biology, 2016, 58, 890-902.(Cover)
  13. Xing MQ, Zhang YJ, Zhou SR, Hu WY, Wu XT, Ye YJ, Wu XX, Xiao YP, Li X, and Xue HW*. Global analysis reveals the crucial roles of DNA methylation during rice seed development. Plant Physiol.2015 168: 1417-1432.
  14. Yu F, He FY, Yao HY, Wang CY, Wang JC, Li JX, Qi XF, Xue HW*, Ding JP*, and Zhang P*. Structural basis of intramitochondrial phosphatidic acid transport mediated by Ups1-Mdm35 complex. EMBO Reports, 2015, 16:813-823.
  15. Yan M, Zhou SR*, and Xue HW*. CRISPR Primer Designer: Design primers for knockout & chromosome imaging CRISPR-Cas system. J Integrative Plant Biology, 2015, 57:613-617. 
  16. Tan ST, and Xue HW*. Casein kinase 1 regulates ethylene synthesis by phosphorylating and promoting the turnover of ACS5. Cell Reports, 2014, 9:1692-1702.
  17. Guo HM, Li HC, Zhou SR, Xue HW*, Miao XX*. Cis-12-Oxo-Phytodienoic Acid Stimulates Rice Defense Response to a Piercing-Sucking Insect. Molecular Plant, 2014, 7:1683-1692. 
  18. Tan ST, Dai C, Liu HT, and Xue HW*. Arabidopsis casein kinase1 proteins CK1.3 and CK1.4 phosphorylate cryptochrome 2 to regulate blue light signaling. The Plant Cell, 2013, 25:2618-2632. 
  19. Gao HB, Chu YJ, Xue HW*. Phosphatidic acid (PA) binds PP2AA1 to regulate PP2A activity and PIN1 polar localization. Molecular Plant, 2013, 6:1692-1702. 
  20. Tang Y, Tan ST, Xue HW*. Arabidopsis inositol 1,3,4-trisphosphate 5/6 kinase 2 (ITPK2) is required for seed coat development. ActaBiochimicaetBiophysicaSinica, 2013, 45:549-560.
  21. Zhou XY, Song L, and Xue HW*. Brassinosteroids regulate the differential growth of Arabidopsis hypocotyls through auxin signaling components IAA19 and ARF7. Molecular Plant, 2013, 6:887-904. 
  22. Wang J, Hu J, Qian Q, and Xue HW*. LC2 and OsVIL2 promote rice flowering by photoperoid-induced epigenetic silencing of OsLF. Molecular Plant, 2013, 6:514-527.
  23. Zhang JJ, and Xue HW*. OsLEC1/OsHAP3E participates in the determination of meristem identity in both vegetative and reproductive developments of rice. J Integrative Plant Biology, 2013, 55:232-249.
  24. Zhao SQ, Xiang JJ, and Xue HW*. Studies on the rice LEAF INCLINATION1 (LC1), an IAA-amidosynthetase, reveal the effects of auxin in leaf inclination control. Molecular Plant, 2013, 6:174-187.
  25. Xiang JJ, Zhang GH, Qian Q, and Xue HW*. SRL1 encodes a putative GPI-anchored protein and modulates rice leaf rolling by regulating the formation of bulliform cells. Plant Physiology, 2012, 159:1488-1500. 
  26. Xing MQ, and Xue HW*. A proteomics study of auxin effects in Arabidopsisthaliana. ActaBiochimicaetBiophysicaSinica, 2012, 44:783-796.
  27. Han XX, Yin LL, and Xue HW*. Co-expression analysis identifies CRC and AP1 the regulator of Arabidopsis fatty acid biosynthesis. J Integrative Plant Biology, 2012, 54:486-499.
  28. Wang Y, Chu YJ, and Xue HW*. Inositol polyphosphate 5-phosphatase-controlled Ins(1,4,5)P3/Ca2+ is crucial for maintaining pollen dormancy and regulating early germination of pollen. Development, 2012, 139:2221-2233.
  29. Mei Y, Gao HB, Yuan M, and Xue HW*. Arabidopsis ARCP protein CSI1, which is required for microtubule stability, is necessary for root and anther development. The Plant Cell, 2012, 24:1066-1080.
  30. Yin LL, Xue HW*. MADS29 regulates the degradation of the nucellus and the nucellar projection during rice seed development. The Plant Cell, 2012, 24: 1049-1065.
  31. Xue LJ, Zhang JJ, Xue HW*. Genome-wide analysis of the complex transcriptional networks of rice developing seeds. PLoS One, 2012, 7:e31081.
  32. Mei Y, Jia WJ, Chu YJ, Xue HW*. Arabidopsis PIPK2 is involved in root gravitropism through regulating auxin polar transport by affecting the cycling of PIN proteins. Cell Research, 2012,22:581-597.
  33. Gao LL, Xue HW*. Global analysis of expression profiles of rice receptor-like kinase genes. Molecular Plant, 2012,5:143-153.
  34. Shi QM, Yang X, Song L, Xue HW*. Arabidopsis MSBP1 is activated by HY5 and HYH and is involved in photomorphogenesis and brassinosteroid sensitivity regulation. Molecular Plant, 2011,4:1092-1104.
  35. Li P, Xue HW*. Structural characterization and expression pattern analysis of the rice PLT gene family. ActaBiochimicaetBiophysicaSinica, 2011, 43:688-697.
  36. Yang X, Yang YN, Xue LJ, Zou MJ, Liu JJ, Chen F, Xue HW*. Rice ABI5-like1 regulates ABA and auxin responses by affecting the expression of ABRE-containing genes. Plant Physiology, 2011, 156:1397-1409.
  37. Wen BQ, Xing MQ, Zhang H, Dai C, Xue HW*. Rice homeobox transcription factor HOX1a positively regulates gibberellin responses by directly suppressing EL1. J Integrative Plant Biology, 2011, 53:869-878.
  38. Wu GZ, Xue HW*. Arabidopsis β-ketoacyl-[acyl carrier protein] synthase I (KASI) is crucial for fatty acid synthesis and plays a role in chloroplast division and embryo development. The Plant Cell, 2010, 22:3726-3744.
  39. Fu FF, Xue HW*. Co-expression analysis identifies Rice Starch Regulator1 (RSR1), a rice AP2/EREBP family transcription factor, as a novel rice starch biosynthesis regulator. Plant Physiology, 2010, 154:927-938.
  40. Zhao SQ, Hu J, Guo LB, Qian Q, Xue HW*. Rice leaf inclination 2 (LC2), a VIN3-like protein, regulates leaf angle through modulating cell division of the collar. Cell Research, 2010, 20:935-947.
  41. Dai C, Xue HW*. Rice EARLY FLOWERING1, a CKI, phosphorylates DELLA protein SLR1 to negatively regulate GA signaling. EMBO J, 2010, 29:1916-1927.
  42. Wang Y, Lin WH, Chen X, Xue HW*. Arabidopsis 5PTase13 is involved in root gravitropism through modulating vesicle trafficking. Cell Research, 2009: 19:1191-1204.
  43. Niu Y, Wu GZ, Ye R, Lin WH, Shi QM, Xue LJ, Xu XD, Li Y, Du YG, Xue HW*. Global analysis of gene expression profiles in Brassica napus developing seeds reveals a conserved lipid metabolism regulation with Arabidopsis thaliana. Molecular Plant, 2009, 2:1107-1122. 
  44. Song L, Zhou XY, Li L, Xue LJ, Yang X, Xue HW*. Genome-wide analysis revealed the complex regulatory network of brassinosteroid effects in photomorphogenesis. Molecular Plant, 2009, 2:755-772.
  45. Song L, Shi QM, Yang XH, Xu ZH, Xue HW*. Membrane steroid binding protein 1 (MSBP1) negatively regulates brassinosteroid signaling by enhancing the endocytosis of BAK1. Cell Research, 2009, 19:864-876. (Cover)
  46. Yin K, Han XX, Xu ZH, Xue HW*. Arabidopsis GLP4 is localized to the Golgi and binds auxin in vitro. ActaBiochimicaetBiophysicaSinica, 2009, 41:478-487.
  47. Chang L, Ma H, Xue HW*. Functional conservation of the meiotic genes SDS and RCK for male meiosis in the monocot rice. Cell Research, 2009, 19:768-782. 
  48. Zhang GH, Xu Q, Zhu XD, Qian Q, Xue HW*. SHALLOT-LIKE1 is a KANADI transcription factor that modulates rice leaf rolling by regulating leaf abaxial cell development. The Plant Cell, 2009, 21:719-735. (Cover)
  49. Fu F, Ye R, Xu SP, Xue HW*. Studies on rice seed quality through analyzing a large-scale T-DNA insertion population. Cell Research, 2009, 19:380-391. 
  50. Xue LJ, Zhang JJ, Xue HW*. Characterization and expression profiles of miRNAs in rice seeds. Nucleic Acids Research, 2009, 37:916-930. 
  51. Yang X, Song L, and Xue HW*. Membrane steroid binding Protein 1 (MSBP1) stimulates tropism by regulating vesicle trafficking and auxin redistribution. Molecular Plant, 2008, 1:1077-1087. 
  52. Chen X, Lin WH, Wang Y, Luan S, Xue HW*. An Inositol polyphosphate 5-phosphatase functions in phototropin 1 signaling in Arabidopsis by altering cytosolic Ca2+. The Plant Cell, 2008, 20:353-366.
  53. Wu GZ, Shi QM, Niu Y, Xing MQ and Xue HW*. Shanghai RAPESEED Database: a resource for functional genomics studies of seed development and fatty acid metabolism of Brassica. Nucleic Acids Research, 2008, 36:D1044-D1047. 
  54. Li G, Lin F and Xue HW*. Genome-wide analysis of phospholipase D family in Oryza sativa and functional characterization of PLDβ1 in seed germination. Cell Research, 2007, 17:881-894. 
  55. Li G, and Xue HW*. Arabidopsis PLDζ2 regulates vesicle trafficking and is required for auxin response. The Plant Cell, 2007, 19:281-295.
  56. Lou Y, Gou JY, and Xue HW*. AtPIP5K9, an Arabidopsis phosphatidylinositol monophosphate kinase, interacts with a cytosolic invertase to negatively regulate sugar-mediated root growth. The Plant Cell, 2007, 19:163-181. 
  57. Duan K, Li L, Hu P, Xu SP, Xu ZH and Xue HW*. A brassinolide-suppressed rice MADS-box transcription factor, OsMDP1, has a negative regulatory role in BR signaling. The Plant J, 2006, 47:519-531.
  58. Feng XL, Ni WM, Elge S, Mueller-Roeber B, Xu ZH and Xue HW*. Auxin flow in anther filaments is critical for pollen grain development through regulating pollen mitosis. Plant Molecular Biology, 2006, 61:215-226.
  59. Ma H, Lou Y, Lin WH and Xue HW*. MORN motifs in plant PIPKs are involved in the regulation of subcellular localization and phospholipid binding. Cell Research, 2006, 16:466-478.
  60. Lou Y, Ma H, Lin WH, Chu ZQ, Mueller-Roeber B, Xu ZH and Xue HW*. The highly charged region of plant β-type phosphatidylinositol 4-kinase is involved in membrane targeting and phospholipid binding. Plant Molecular Biology, 2006, 60:729-746.
  61. Lin WH, Wang Y, Mueller-Roeber B, Xu ZH and Xue HW*. At5PTase13 modulates cotyledon vein development through regulating auxin homeostasis. Plant Physiology, 2005, 139: 1677-1691.
  62. Li L, Xu J, Xu ZH and Xue HW*. Brassinosteroids stimulate plant tropisms through modulation of polar auxin transport in Brassica and Arabidopsis. The Plant Cell, 2005, 17: 2738-2753.
  63. Duan K, Luo YH, Luo D, Xu ZH and Xue HW*. New insights into the complex and coordinated transcriptional regulation networks underlying rice seed development through cDNA chip-based analysis. Plant Molecular Biology, 2005, 57:785-804. 
  64. Xu J, Brearley CA, Lin WH, Wang Y, Ye R, Mueller- Roeber B, Xu ZH and Xue HW*. A role of Arabidopsis inositol polyphosphate kinase, AtIPK2α, in pollen germination and root growth. Plant Physiology, 2005, 137:94-103.
  65. Yang XH, Xu ZH and Xue HW*. Arabidopsis membrane steroid-binding protein 1 (MSBP1) is involved in inhibition of cell elongation. The Plant Cell, 2005, 17:116-131. 
  66. Ma H, Xu SP, Luo D, Xu ZH and Xue HW*. OsPIPK1, a rice phosphatidylinositol monophosphate kinase, regulates rice heading by modifying the expression of floral induction genes. Plant Molecular Biology, 2004, 54:295-310. 
  67. Ye R, Yao QH, Xu ZH and Xue HW*. Development of an efficient method for the isolation of factors involved in gene transcription during rice embryo development. The Plant J, 2004, 38:348-357. 
  68. Lin WH, Ye R, Ma H, Xu ZH and Xue HW*. DNA chip-based expression profile analysis indicates involvement of the phosphatidylinositol signaling pathway in multiple plant responses to hormone and abiotic treatments. Cell Research, 2004, 14:45-52.(Cover)
  69. Liu W, Xu ZH, Luo D and Xue HW*. Roles of OsCKI1, a rice casein kinase I, in root development and plant hormone sensitivity.The Plant J, 2003, 36:189-202.
  70. Lin F, Xu SL, Ni WM, Chu ZQ, Xu ZH and Xue HW*. Identification of ABA-responsive genes in rice shoots via cDNA macroarray. Cell Research, 2003, 13:59-68.
  71. Kong XF, Xu ZH and Xue HW*. Isolation and functional characterization of the C-terminus of rice phosphatidylinositol 4-kinase in vitro. Cell Research, 2003, 13:131-139. 
  72. Zhou DX, Yin K, Xu ZH and Xue HW*. Effect of polar auxin transport on rice root development. Acta Botanica Sinica. 2003, 45:1421-1427.
  73. Ni WM, Chen XY, Xu ZH and Xue HW*. A Pin gene families encoding components of auxin efflux carriers in Brassica juncea. Cell Research, 2002, 12:247-255.
  74. Ni WM, Chen XY, Xu ZH and Xue HW*. Isolation and functional analysis of a Brassica juncea gene encoding a component of auxin efflux carrier. Cell Research, 2002, 12:235-245.
  75. 胥寿玲,沈思师,许智宏,薛红卫*。通过荧光差异显示PCR法分离水稻中由ABA调节的基因。实验生物学报,2002,35:257-262。
  76. Xue HW, Hosaka H and Mueller-Roeber B. Cloning of Arabidopsisthaliana phosphatidylinositol synthase and functional expression in the yeast pis mutant. Plant Molecular Biology, 2000, 42:757-764.
  77. Xue HW, Pical C, Brearley C, Elge S, and Mueller-Roeber B. A plant 126-kDa phosphatidylinositol 4-kinase with a novel repeat structure: cloning and functional expression in baculovirus-infected insect cells. J Biological Chemistry, 1999, 274:5738-5744.
  78. 薛红卫,卫志明,许智宏。通过PEG法转化甘蓝获得转基因植株。植物学报,1997,39:28-33。
  79. Xue HW, Wei ZM and Xu ZH. Genetic transformation of Brassica oleracea by lipofectin-mediated direct plasmid uptake. Chinese Bulletin of Science. 1996, 41: 770-773.
  80. 薛红卫,卫志明,许智宏。甘蓝下胚轴原生质体高效成株系统的建立。实验生物学报,1994,27:259-269。

合作论文

  1. Hu ZJ, Lu SJ, He HH, Sun L, Wang HR, Liu XH, Jiang L, Sun JL, Xin XY, Kong W, Chu C, Xue HW, Yang JS, Luo XJ, and Liu JX*. Novel QTL qTGW3 Encodes the GSK3/SHAGGY-Like Kinase OsGSK5/OsSK41 that Interacts with OsARF4 to Negatively Regulate Grain Size and Weight in Rice. Molecular Plant, 2018, 11, 736-749.
  2. Zhang YJ, Zhang Y, Zhang LJ, Huang HY, Yang BJ, Luan S, Xue HW, Lin WH*. OsGATA7 modulates brassinosteroids-mediated growth regulation and influences architecture and grain shape. Plant Biotechnology Journal, 2018, doi:10.1111/pbi.12887.
  3. Zhang Y, Zhang YJ, Yang BJ, Yu XX, Wang D, Zu SH, Xue HW, Lin WH*. Functional characterization of GmBZL2 (AtBZR1 like gene) reveals the conserved BR signaling regulation in Glycine max. Scientific Reports, 2016, 6:31134.
  4. Zhao Q, Zhang Y, Wang G, Hill L, Weng JK, Chen XY, Xue HW, Cathie Martin*. A specialized flavone biosynthetic pathway has evolved in the medicinal plant, Scutellariabaicalensis. Science Advances, 2016, doi: 10.1126/sciadv.1501780.
  5. Wu P, Gao HB, Zhang LL,Xue HW, and Lin WH*. Phosphatidic acid regulates BZR1 activity and brassinosteroid signal of Arabidopsis. Molecular Plant, 2013, 7: 445-447. 
  6. Zhang J. Vanneste S, Brewer P, Michniewicz M, Grones P, Kleine-Vehn J, Loefke C, Teichmann T, Bielach A, Cannoot B, Hoyerova K, Chen X, Xue HW, Benkova E, Zazımalova Z, Friml J*. Inositol trisphosphate-induced Ca2+ signaling modulates auxin transport and PIN polarity. Developmental Cell, 2011, 20:855-866.
  7. Gao XC, Liang WQ, Yin CS, Ji SM, Wang HM, Su X, Guo CC, Kong HZ, Xue HW, Zhang DB*. The SEPALLATA-like gene OsMADS34 is required for rice inflorescence and spikelet development. Plant Physiology, 2010, 153:728-740. 
  8. Yang HX, Liu H, Li G, Feng JJ, Qin HJ, Liu X,Xue HW, Wang DW*. Reduction of root flavonoid level and its potential involvement in lateral root emergence in Arabidopsis thaliana grown under low phosphate supply. Functional Plant Biology, 2009, 36: 564-573.
  9. Mancuso S, Marras AM, Mugnai S, Schlicht M, Žársky V, Li G, Song L, Xue HW and Baluška F*. Phospholipase Dζ2 drives vesicular secretion of auxin for its polar cell-cell transport in the transition zone of the root apex. Plant Signaling & Behavior, 2007, 4:240-244. 
  10. Xu J, Zhang HY, Xie CH, Xue HW, Dijkhuis P and Liu CM*. EMBRYONIC FACTOR 1 encodes an AMP deaminase and is essential for the zygote to embryo transition in Arabidopsis. The Plant J, 2005, 42:743-758.
  11. Wang JW, Wang LJ, Mao YB, Cai WJ, Xue HW and Chen XY*. Control of root cap formation by microRNA-targeted auxin response factors in Arabidopsis. The Plant Cell, 2005, 17:2204-2216. 
  12. Elge S, Brearley C, Xia HJ, Kehr J, Xue HW and Mueller-Roeber B*. An Arabidopsis inositol phospholipid kinase strongly expressed in procambial cells, synthesis of PtdIns(4,5)P2 and PtdIns(3,4,5)P3 in insect cells by 5-phosphorylation of precursors.The Plant J, 2001, 26:561-571.
  13. 卫志明,黄健秋,徐淑平,薛红卫等。甘蓝下胚轴的高效再生和农杆菌介导B.t.基因转化甘蓝。上海农业学报,1998,14:11-18。

综述

  1. Yao HY, Xue HW*. Phosphatidic acid (PA) plays key roles regulating plant development and stress responses. J Integrative Plant Biology, 2018, 10.1111/jipb.12663
  2. 刘春明,程佑发,刘永秀,孙蒙祥,薛红卫*。植物种子发育的分子机理。中国基础科学,2016,DOI:10.3969/j.issn.1009-2412.2016.02.001。
  3. 薛红卫,谭树堂,晏萌。植物中的蛋白磷酸化。In: 新生物学年鉴2014 (主编:蒲慕明)。科学出版社,2014年,24-76页。
  4. Zhou SR, Yin LL, Xue HW*. Functional genomics based understanding of rice endosperm development. Current Opinion in Plant Biology, 2013, 16:236-246.
  5. 周晓艺,薛红卫*. 生长素与油菜素甾醇相互作用机制的研究进展。中国科学: 生命科学,2013,43:1047-1053。
  6. Yao HY, Xue HW*. Signals and mechanisms affecting vesicular trafficking during root growth. Current Opinion in Plant Biology, 2011, 14:571-579.
  7. Xue HW*, Chen X, Mei Y. Function and regulation of phospholipid signaling in plants. Biochemical J, 2009, 421:145-156. 
  8. Xue HW*, Chen X, Li G. Involvement of phospholipid signaling in plant growth and hormone effects. Current Opinion in Plant Biology, 2007, 10:483-489. 
  9. 储昭庆,李李,宋丽,薛红卫*。油菜素内酯生物合成与功能的研究进展。植物学通报,2006,23:543-555。
  10. 宋丽,李李,储昭庆,薛红卫*。拟南芥油菜素内酯信号转导研究进展。植物学通报,2006,23:556-563。
  11. 林芳,许智宏,薛红卫*。植物信号传导中的磷脂酶。植物学报,2001,43:991-1002。
  12. 倪为民,陈晓亚,许智宏,薛红卫*。生长素极性运输研究进展。植物学报,2000,42:221-228。
  13. 薛红卫,卫志明,许智宏。影响甘蓝下胚轴原生质体转化的因素。植物生理学通讯,1994,30:249-255。

专著及章节
专著

  1. 陈晓亚,薛红卫。植物生理和分子生物学(第四版)。高等教育出版社,2012。
  2. 许智宏,薛红卫。植物激素作用的分子机理。上海科学技术出版社,2012。

专著章节

  1. 薛红卫,邢梅青,张花。种子发育。In: 植物生理和分子生物学(第四版,主编:陈晓亚、薛红卫)。高等教育出版社,2012年,497-513页。
  2. 文启光,薛红卫。激素的生物合成及信号转导。In: 植物生理和分子生物学(第四版,主编:陈晓亚、薛红卫)。高等教育出版社,2012年,524-556页。
  3. 薛红卫,周晓艺。生长素。In: 植物激素作用的分子机理(主编:许智宏、薛红卫)。上海科学技术出版社,2012年,1-37页。
  4. 薛红卫,文启光。激素的生物合成。In: 植物生理和分子生物学(第三版,主编:陈晓亚、汤章城)。高等教育出版社,2007,412-445页。
  5. 文启光,薛红卫。激素的作用与信号传导。In: 植物生理和分子生物学(第三版,主编:陈晓亚、汤章城)。高等教育出版社,2007,499-530页。
  6. Xu ZH and Xue HW. Plant regeneration from cultured protoplasts. In: Morphogenesis in Plant Tissue Culture (ed. WY Soh). Kluwer Academic Publishers. 1999.
  7. 许智宏,薛红卫。由原生质体再生植株。In: 植物原生质体培养和遗传转化(主编:许智宏、卫志明)。上海科学技术出版社,1997,20-30页。
  8. 薛红卫,许智宏。菊科植物。In: 植物原生质体培养和遗传转化(主编:许智宏、卫志明)。上海科学技术出版社,1997,pp186-196页。
  9. 许智宏,薛红卫。种子植物原生质体培养中再生植株的种类。In: 植物原生质体培养和遗传转化(主编:许智宏、卫志明)。上海科学技术出版社,1997,245-266页。

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