______________________________________________________________________________________________________________________________________________________________________________________________________________

薛红卫  博士 教授、博士生导师，现任华南农业大学党委副书记、校长。

研究方向：

植物激素作用与种子发育

主要研究领域：

主要开展水稻种子发育的遗传调控机制研究，同时开展植物激素作用机理和信号转导，特别是激素信号重要调控因子鉴定、激素间及激素与磷脂信号互作调控植物发育的分子机理研究。

教育经历：

1991.07 毕业于上海华东师范大学生物学专业，获理学学士；

1996.07 于中国科学院上海植物生理研究所获博士学位。

工作经历：

2023.09-现在，华南农业大学党委副书记、校长，农学院教授；

2019.01-2023.09，上海交通大学农业与生物学院，院长、教授；

1999.01-2018.12，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)；

1996.07-1998.12年在德国马普分子植物生理研究所从事博士后研究。

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-)

2006年获上海市自然科学奖二等奖(排名第一)

2005年获上海市科技进步奖二等奖(排名第一)

学术兼职：

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，中国作物学会常务理事，上海遗传学会副理事长，Molecular Horticulture共同主编，Cell Research、Molecular Plant、Plant Cell & Environment 等期刊编委（副主编）等。

主要学术成果：

      主持承担“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、“高等植物开花时间多样性的分子机理”国家自然科学基金创新研究群体，以及中国科学院、上海市的多项研究任务。以通讯作者在包括Nature Plants，Nature Communications，Cell Research，Science Bulletin，Molecular Plant，Plant Cell，Autophagy，PNAS等发表SCI论文90余篇，多次应邀为Current Opinion in Plant Biology 等杂志撰写综述，发表论著2部。

研究论文 (通讯作者或第一作者)：

1. Guan B and Xue HW*. Arabidopsis AUTOPHAGY-RELATED3 (ATG3) facilitates the liquid–liquid phase separation of ATG8e to promote autophagy. 2022, Science Bulletin, 67: 350-354.

2. Zhang XF, Yang CY, Lin HX, Wang JW and Xue HW*. Rice SPL12 coevolved with GW5 to determine grain shape. 2021, Science Bulletin, 66: 2353-2357.

3. Tan S, Zhang X, Kong W, Yang XL, Molnár G, Vondráková Z, Filepová R, Petrášek J, Friml J and Xue HW*. The lipid code-dependent phosphoswitch PDK1–D6PK activates PIN-mediated auxin efflux in Arabidopsis. 2020, Nature Plants, 6: 556-569.

4. Zhang Y, Xiong Y, Liu RY, Xue HW* and Yang ZB, The Rho-family GTPase OsRac1 controls rice grain size and yield by regulating cell division. 2019, Proc Natl Acad Sci USA, 116: 16121-16126.

5. 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. 2018, Molecular Plant, 11: 706-719.

6. 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, 14: e1007829.

7. 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 Biotechnology Journal, 2018, 17: 712-723.

8. Qu L, Lin LB, and Xue HW*. Rice miR394 suppresses leaf inclination through targeting an F-box gene, LEAF INCLINATION 4. Journal of Integrative Plant Biology, 2018, 61(4): 406-416.

9. 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, 27: 1182-1185.

10. Zhou LJ, Xiao LT, and Xue HW*. Dynamic cytology and transcriptional regulation of rice lamina joint development. Plant Physiology, 2017, 174, 1728-1746. (Cover)

11. 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. Journal of Experimental Botany, 2016, 67, 6399-6411.

12. 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. 

13. 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.

14. 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. 

15. 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.

16. Wang YS, Yao HY*, and Xue HW*. Lipidomic profiling analysis reveals the dynamics of phospholipid molecules in Arabidopsis thaliana seedling growth. Journal of Integrative Plant Biology, 2016, 58, 890-902.(Cover)

17. 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 Physiology. 2015, 168: 1417-1432.

18. 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.

19. Yan M, Zhou SR*, and Xue HW*. CRISPR Primer Designer: Design primers for knockout & chromosome imaging CRISPR-Cas system. Journal of Integrative Plant Biology, 2015, 57: 613-617. 

20. 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.

21. 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. 

22. 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. 

23. 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. 

24. Tang Y, Tan ST, Xue HW*. Arabidopsis inositol 1,3,4-trisphosphate 5/6 kinase 2 (ITPK2) is required for seed coat development. Acta Biochimica et Biophysica Sinica, 2013, 45: 549-560.

25. 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. 

26. 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.

27. Zhang JJ, and Xue HW*. OsLEC1/OsHAP3E participates in the determination of meristem identity in both vegetative and reproductive developments of rice. Journal of Integrative Plant Biology, 2013, 55: 232-249.

28. 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.

29. 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. 

30. Xing MQ, and Xue HW*. A proteomics study of auxin effects in Arabidopsis thaliana. Acta Biochimica et Biophysica Sinica, 2012, 44: 783-796.

31. Han XX, Yin LL, and Xue HW*. Co-expression analysis identifies CRC and AP1 the regulator of Arabidopsis fatty acid biosynthesis. Journal of Integrative Plant Biology, 2012, 54: 486-499.

32. 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.

33. 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.

34. 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.

35. Xue LJ, Zhang JJ, Xue HW*. Genome-wide analysis of the complex transcriptional networks of rice developing seeds. PLoS One, 2012, 7: e31081.

36. 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.

37. Gao LL, Xue HW*. Global analysis of expression profiles of rice receptor-like kinase genes. Molecular Plant, 2012, 5: 143-153.

38. 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.

39. Li P, Xue HW*. Structural characterization and expression pattern analysis of the rice PLT gene family. Acta Biochimica et Biophysica Sinica, 2011, 43: 688-697.

40. 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.

41. Wen BQ, Xing MQ, Zhang H, Dai C, Xue HW*. Rice homeobox transcription factor HOX1a positively regulates gibberellin responses by directly suppressing EL1. Journal of Integrative Plant Biology, 2011, 53: 869-878.

42. 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.

43. 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.

44. 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.

45. Dai C, Xue HW*. Rice EARLY FLOWERING1, a CKI, phosphorylates DELLA protein SLR1 to negatively regulate GA signaling. EMBO Journal, 2010, 29: 1916-1927.

46. 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.

47. 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. 

48. 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.

49. 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)

50. Yin K, Han XX, Xu ZH, Xue HW*. Arabidopsis GLP4 is localized to the Golgi and binds auxin in vitro. Acta Biochimica et Biophysica Sinica, 2009, 41: 478-487.

51. 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. 

52. 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)

53. 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. 

54. Xue LJ, Zhang JJ, Xue HW*. Characterization and expression profiles of miRNAs in rice seeds. Nucleic Acids Research, 2009, 37: 916-930. 

55. 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. 

56. 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.

57. 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. 

58. 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. 

59. Li G, and Xue HW*. Arabidopsis PLDζ2 regulates vesicle trafficking and is required for auxin response. The Plant Cell, 2007, 19: 281-295.

60. 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. 

61. 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 Journal, 2006, 47: 519-531.

62. 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.

63. 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.

64. 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.

65. 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.

66. 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.

67. 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. 

68. 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.

69. 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. 

70. 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. 

71. 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 Journal, 2004, 38: 348-357. 

72. 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)

73. 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 Journal, 2003, 36: 189-202.

74. 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.

75. 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. 

76. 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.

77. 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.

78. 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.

79. 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。

80. Xue HW, Hosaka H and Mueller-Roeber B. Cloning of Arabidopsis thaliana phosphatidylinositol synthase and functional expression in the yeast pis mutant. Plant Molecular Biology, 2000, 42: 757-764.

81. 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. Journal of Biological Chemistry, 1999, 274: 5738-5744.

82. 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。

83. 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.

84. 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。

综述：

1. Yao HY, Xue HW*. Phosphatidic acid plays key roles regulating plant development and stress responses. Journal of Integrative Plant Biology, 2018, 60: 851-863.

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 Journal, 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，1997，186-196页。

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