夏光敏查看源代码讨论查看历史

夏光敏
原图链接 图片来源搜狐 山东大学农学院党委书记兼常务副院长
原文名	xiaguangmin
国籍	中国
母校	山东大学
职业	教育科研工作者

夏光敏，女，博士，教授、博士生导师^[1]，教育部跨世纪优秀人才^[2]。山东省植物生理学会副理事长，中国植物生理学会理事。长期从事小麦和牧草的分子育种研究。1996-1997年在澳大利亚联邦科学院植物工业研究所植物分子生物学实验室作访问学者，主要进行小麦分子遗传学及小麦基因转化研究。2002 在英国John Innes Centre 作访问学者，主要进行小麦基因组与进化及小麦分子标记研究。现任山东大学生命学院党委书记、农学院党委书记兼常务副院长^[3]。

个人贡献

在国际上率先创立了小麦体细胞杂交转移异源染色体小片段的新技术，获得2000年山东省科技进步奖理论成果二等奖。在此基础上，系统研究了体细胞杂种后代的核/质基因组、异源染色体小片段和DNA片段的遗传规律及与发育和新性状产生的关系;以及杂种HMW-GS的遗传稳定性和其新基因的来源和进化等;克隆和标记了杂种的优质和耐盐基因。通过对杂种耐盐新品种山融3号的分子标记确定了杂种耐盐性状由主效基因控制，克隆了杂种的优质、耐盐新基因20多个，并且完成了部分基因的功能验证，这些研究结果已经发表在Plant J(2006);Planta(2005，2006)，Theor Appl Genet (2003, 2004，2005)，Genome(2004)，Mol Gen Genomes(2001)，JAFC(2006)， Plant Sc i(2003a, 2003b; 2004a，2004b, 2004c，2004d，2006)和Plant Cell Rep(2004a，2004b，2005;2006);Plant Bio (2006)及Cell Research (2004)，中国科学(2001，2003，2004)和植物学报(2001，2002，2004a，2004b，2004c，2004d)等该领域主流SCI源刊物上，为此项新的生物技术奠定了重要的理论基础。在国内外率先建立了小麦苗端转化技术,已经通过发明专利审核;获得小麦\高羊茅基因工程株系和品系,已经申请环境释放。小麦体细胞杂交研究获2000年山东省科技进步二等奖;小麦BYDV抗性转基因育种获1995年全国十大科技成果。

1998-2006主持国家和省部级项目20多项,2005年获得国家自然科学基金重点项目，国家863项目和国家973项目资助.

2005年"小麦体细胞杂交技术及其在育种中的应用"通过国内知名专家鉴定:"是小麦生物技术育种上的重要突破，总体研究达到国际领先水平。"

2005年小麦/牧草的体细胞杂交育种和基因工程育种共3项分别通过了国家863项目验收。

小麦/牧草的体细胞杂交育种和基因工程育种申请国家发明专利7项。

2001年以来在国际遗传育种、植物生物学、细胞遗传学等主流期刊发表SCI源论文30多篇;EI收录论文4篇,总影响因子IF 50点以上,被他引109次。

2005年被邀请在全国植物分子生物学和组织培养大会和中日植物科学交流会议上作大会发言。

创建了耐盐、耐旱体细胞杂种新品种"山融3号"，2005年在盐碱地和旱肥地的大面积示范种植，平均亩产465斤，为进一步在盐碱地和旱肥地大面积推广奠定了基础;并且通过分子标记辅助育种，获得多个高产、优质新品系。高产、抗旱新品系山融1号参加山东省区试。

在国际、全国会议上作大会发言6次，已经申请(公开)的发明专利12项。获省、部级二等奖3项。

2001年获山东教育系统"巾国建功十大标兵"和山东省三八红旗手称号，2003年被评为齐鲁巾帼十杰^[4]。

研究方向

l 利用辐射杂种细胞系研究小麦基因组和功能基因组

l .小麦杂种渐渗系及耐逆牧草的优质、耐盐、耐旱功能基因研究

l 外源DNA冲击和表观遗传因子对小麦基因组和功能基因变异的影响

l 小麦、牧草优质、抗逆的基因工程改良

l 小麦目标基因的分子标记辅助育种

发表论文

SCI源论文和国际专著

(*:通讯作者)

1. A. Bottley, G.M. Xia, R. M. D. Koebner, 2006, Homoeologous gene silencing in hexaploid wheat. Plant J, online, IF.6.989

2. Chuanen Zhou, Guangmin Xia*, Daying Zhi, Ying Chen, 2006，Genetic characteri-zation of asymmetric somatic hybrids between Bupleurum scorzonerifolium Willd and Triticum aestivum L.-potential application to the study of the wheat, Planta, 222 , IF.3.108

3. Heng Liu, Lei Shi, Junsheng Zhao, Guangmin Xia*, Genetic Characteristic of High Molecu-lar Weight Glutenin Subunits in Somatic Hybrid Wheat Lines--Potential Application to Wheat Breeding, J. Agric. Food Chem., ASAP Article 10.1021/jf 060321fS0021-8561(06)00321-9, IF 2.507

4. Tong-Jin Zhao · Shuang-Yi Zhao · Hui-Min Chen · Qing-Zhen Zhao · Zan-Min Hu · Bing-Kai Hou，Guang-Min Xia*, Transgenic wheat progeny resistant to powdery mildew generated by Agrobac- terium inoculum to the basal portion of wheat seedling. Plant Cell Rep (2006)，DOI 10.1007/s00299-006-0184-8,IF 2.173

夏光敏
原图链接 图片来源搜狐 夏光敏、教授，博士生导师

5. Aixia Cheng, Haifeng Cui, Guangmin Xia*, 2006, Construction of a primary RH panel of Italian ryegrass genome via UV induced protoplast fusion, Plant Bio. online, IF. 1.91

6. Wang J, Xiang FN, Xia GM*, 2005，Agropyron elongatum chromatin localization on the wheat chromosomes in an introgression line, Planta, 221:277–286 (SCI, IF 3.35)

7. Chuanen Zhou, Guangmin Xia, Daying Zhi, Ying Chen，2005，Genetic characterization of asymmetric somatic hybrids between Bupleurum scorzonerifolium Willd and Triticum aestivum L.-potential application to the study of the wheat, Planta, DOI 10.1007 /s00425-005- 0127-6(SCI, IF.3.35)

8. Fan-guo CHEN, Da-ying ZHI, Guang-min XIA*, 2005, Wheat amino acid analysis in single cells by intracellular FITC- derivatization with PEG, Electrophoresis, 26 (21): 4204-4205(SCI, IF.4.28)

9. Luo Zhen, Chen Fanguo, Feng Deshun, Xia Guangmin, 2005, LMW, glutenin subunit genes in Agropyron elongatum and their potential value in wheat breeding, Theor Appl Genet, 111: 272–280(SCI, IF.2.98)

10. Feng Deshun, Xia Guangmin*, Zhao Shuangyi, Chen Fanguo, 2004，Two novel HMW subunits beneficial to wheat breeding in a hybrid line between T. aestivum and A. elongatum", Theor Appl Genet , 10:136-144(SCI, IF.2.98)

11. Xia Guangmin*, Xiang Fengning, Zhou Aifen, Chen Huimin, 2003，Asymmetric somatic hybridization between wheat(Triticum aestivum L.)and Agropyron elongatum (Host) Nevishi)，Theor Appl Genet，107:299-305 (SCI, IF 2.35)

12. ZHOU Aifen, XIA Guangmin*, 2001, Analysis of chromosomal and organellar DNA of somatic hybrids between Triticum aestiuvm and Haynaldia villosa Schur., Mol Gen Genomics, 265: 387-393(SCI, IF 2.78)

13. Xiang, F.N., Xia, G.M* et al., 2004， Hybrid plant regeneration in relation to the nuclear and cytoplasmic genomes of wheat and Setaria italica. Genome. 47: 680-688, (SCI, IF 2.1)

14. Fan-guo CHEN, Da-ying ZHI, Guang-min XIA, 2005, Analysis of amino acids in individual wheat embryonic protoplast, Amino acids, 29(3): 235-239((SCI, IF.2.0)

15. Aixia Cheng, Guangmin Xia*, Daying Zhi, Huimin Chen, 2004, Intermediate fertile Triticum aestivum + Agropyron elongatum somatic hybrids are generated by low doses of UV irradiation. Cell Research, 14(1): 86-91. (SCI, IF 2.0)

16. Zhe-Yong Xue, Da-Ying Zhi , Gang-Ping Xue, Hui Zhang, Yan-Xiu Zhao, Guang-Min Xia*,2004, Enhanced salt tolerance of transgenic wheat (Tritivum aestivum L.) expressing a vacuolar Na+/H+ antiporter gene with improved grain yields in saline soils in the field and a reduced level of leaf Na+ Plant Sci, Plant Sci 167: 849–859, IF 1.39

17. Aifen Zhou, Guangmin Xia*, 2005, Introgression of the Haynaldia villosa genome to γ-ray induced asymmetric somatic hybrids of wheat, Plant Cell Reports, 24: 289-296 (SCI, IF 1. 46)

18. Cuilin Li, Guangmin Xia*, Fengning Xiang, Chuanen Zhou, Aixia Cheng, 2004, Regeneration of asymmetric somatic hybrid plants from the fusion of two types of wheat with Russian wildrye, Plant Cell Reports, 23: 461–467 (SCI, IF 1.46)

19. Wang Minqin, Xia Guangmin GM*, Peng Zhengying, 2005, High UV-tolerance with introgression hybrid formation of Bupleurum scorzonerifolium Will, Plant Sci, 168 (3): 593-600(SCI, IF.1.39)

20. Suiyun Chen，Guangmin Xia*, Taiyong Quan, Fengnig Xiang, 2004a, Studies on the salt-tolerance of F3-F6 hybrid Lines originated from somatic hybridization between common wheat and Thinopyrum ponticum, Plant Sci, 167:773-779 (SCI, IF 1.39)

21. Aixia Cheng, Guangmin Xia*, 2004, Somatic hybridization between common wheat and Italian ryegrass. Plant Sci, 166(5): 1219-1226 (SCI, IF 1.39)

22. Xu Chunhui，Xia Guangmin*, et al., 2003，Integration of maize nuclear and mitochondrial DNA into the wheat genome through somatic hybridization. Plant Sci, 169: 1001-1008 (SCI, IF 1.68)

23. Xiang FN，XIA Guangmin*, 2003, Effect of UV dosage on somatic hybridization between common wheat (Triticum aestivum L.) and Avena sativa L.，Plant Sci，164: 697-707 (SCI, IF 1.68)

24. Yue Wei, Xia Guangmin*, 2001, Transfer of Salt Tolerance from Aeleuropus littoralis Sinensis to Wheat (Triticum aestivum L.) via Asymmetric Somatic Hybridization, Plant Sci, 161:256-262(SCI, IF 1.38)

25. Wang J, Xiang FN, Xia GM* 2004，Transfer of small chromosome fragments of Agropyron elongatum to wheat chromosome via asymmetric somatic hybridization, Science in China Ser. C (中国科学), 47(5): 434-441 (SCI)

26. Xiang FN, Xia GM*, Chen HM, 2003，Asymmetric somatic hybridization between wheat (Triticum aestivum) and Avena sativa L., Science in China Ser. C (中国科学), 49(3): 243-252 (SCI)

夏光敏
原图链接 图片来源人民网 女科技工作者“社会服务奖”—夏光敏

27. ZHOU Aifen, XIA Guangmin*, 2001, Comparative study of symmetric and symmetric somatic hybridization between common wheat and Haynaldia villosa* Science in China (中国科学), 44(3):294-304(SCI)

28. Shan Lei, Zhao Shuangyi, Xia Guangmin*, 2005, Cloning of the full-length cDNA of the wheat involved in salt stress--root hair defective 3 gene (RHD3)，J. Integrative Plant Biology(植物学报)，47(7):885-891 (SCI)

29. Feng Deshun, Chen Fanguo, Zhao Shuangyi, Xia Guangmin*, 2004, Study on coding genes of high-molecular-weight glutenin subunits in decaploid Agropyron elongatum (Host) Neveski, ACTA Botan Sin(植物学报), 46(4): 489-496 (SCI)

30. Chen Sui-Yun，Xia Guang-min*, et al. 2004, Heredity of Chloroplast and Nuclear Genomes of Asymmetric Somatic Hybrid Lines Between Wheat and Couch Grass, ACTA Botanica Sinica(植物学报)，46(1): 110-115 (SCI)

31. Aixia Cheng, Guangmin Xia*, Huimin Chen, 2004, DNA transfer from wild millet to common wheat by asymmetric somatic hybridization. ACTA Botanica Sinica(植物学报), 46(9):1114-1121 (SCI)

32. Zhou Aifen，XIA Guangmin*, et al. 2002a，Production of hybrid plants between two types of wheat and protoplast. ACTA Botanica Sinica(植物学报)，44(8): 1004-1008 (SCI)

33. Xiang FN, Xia Guangmin* et al, 2001, Agronomic trait and protein component of F2 ybrid originated from intergeneric somatic hybridization between Triticum astivum and Agropyron elongatum, ACTA Botanica Sinica(植物学报), 43(3): 232- 237(SCI)

34. Chen FG, Wang C, Zhi DY, et al., 2005, Free amino acids analysis of wheat embryonic cells without regenerated ability, CHINESE JOURNAL OF ANALYTICAL CHEMISTRY, 33 (11): 1539-1542 (SCI)

35. Chen Fanguo, Zhang xueyong, Xia guangmin, Jia jizeng, 2002, Construction and characterization of a bacterial artificial chromosome library for Triticum aestivum, ACTA Botanica Sinica(植物学报), 44(4): 451-456 (SCI)

36. R Koebner and G Xia, 2003, Homoeologous gene silencing in hexaploid wheat.Aanual Wheat News letter. 49:161-162 (SCI)

37. Xia GM*，Li ZY, Wang SL, Xiang FN, Chen PD, Liu DJ, 1998, Asymmetric somatic hybridization between haploid common wheat and UV irradiated Haynaldia villosa, Plant Sci, 137:217-223(SCI, IF 1.3)

38. Xia GM*, Chen HM, 1996, Plant regeneration from intergeneric somatic hybridization between Triticum aestivum and Leymus chinensis, Plant Sci, 102:197-203(SCI, IF 1.1)

39. Li Z Y, Xia G M, Chen H M, 1992, Somatic embryogenesis and plant regeneration from protoplast isolated from embryogenic cell suspension of wheat (Triticum aestivum L.), Plant Cell Tiss Org Cult, 28: 73-85(SCI IF 1.1)

40. Li Z Y, Xia G M, Chen H M et al, 1992. Plant regeneration from protoplasts derived embryo genesis suspension cultures of wheat, J. Plant Physiol, 139: 714-718(SCI，IF 1.28)

41. Zhou AF, Xia GM*, Chen HM, 1996, Somatic hybridization between Triticum aestivum and Hynaldia villosa, Science in China (Series C) (中国科学), 39(6): 617-626(SCI)

42. Song XQ, Xia GM* et al., 1999, Production of platelets from interfamilial somatic hybridization between Vitis vinifera L. and Bubliurum scorzonifollium Willd, Chin. Sci. Bull (科学通报), 44(17): 1382-1386(SCI)

43. Guo GQ, Xia GM, Li ZY et al. direct somatic embryogenesis and plant-regeneration from protoplast-derived cells of wheat (triticum-aestivum), Science in China series B, 34 (4): 438-445(SCI)

44. Xia G M*, Wang H, Chen H M, 1996, Plant regeneration from intergeneric asymmetric somatic hybridization between wheat (Triticumn aestivum L.) and Russian wildrye (Psathyrostachys juncea (Fisch) Neweski) and couch grass (Agropyron elongatumn Host Neviski), Chin Sci Bull (科学通报), 41(160): 1382-1386(SCI)

45. Xia GM, Xiang FN, Zhou AF, et al., 1999, Fertile hybrid plant regeneration from somatic hybridization between Triticum aestivum and Agropyron elongatum ACTA BOTANICA SINICA, 41 (4): 349-355 (SCI)

46. Xiang FN, Xia GM, Zhou AF, et al., 1999, Asymmetric somatic hybridization between wheat (Triticum aestivum) and Bromus inermis, ACTA BOTANICA SINICA, 41 (5): 458-462(SCI)

47. Xia G M, Li Z Y, Chen H M et al, 1992, Direct somatic embryogenesis and plant-regeneration from protoplasts of bupleurum-scorzonerifolium willd. Plant Cell Reports, 11 (3): 155-158(SCI，IF 1.1)

48. 周爱芬，夏光敏*，陈惠民，1995，普通小麦与簇毛麦的不对称体细胞杂交及植株再生，科学通报，40(6): 575-576(SCI)

49. .Guo GQ, Xia GM, Li Zhongyi, Chen HM, 1990, Pant regeneration from protoplast wheat (Triticum aestivum L.) Chin Sci Bull 35(SCI)

50. Guo GQ, Xia GM, Li ZY et al. 1990 Direct somatic embryogenesis and plant-regeneration from protoplast-derived cells of wheat (triticum-aestivum), Science in China series B, 34 (4): 438-445(SCI)

51. Guangmin Xia*, Aixia Cheng, 2004, Donor genome exclusion and nuclear/ cytop- lasm genotyping of the asymmetric somatic hybrids of wheat, GENETIC RESOURCES AND BIOTECHNOLOGY, Ed by D. THANGADURAI, T. PULLAIAH, M.A.A.P. CARVALHO, Regency Publications, Chapter 15(国际专著)

夏光敏
原图链接 图片来源一点资讯 小麦遗传育种领域专家——夏光敏

52. Xia Guangmin* et al., 2001, Asymmetric somatic hybridization between Triticum aestivum and Haynaldia villosa by γ-fusion, BAF (Springer verlag) Vol49:56-69 (国际专著)

53. Xia Guangmin* et al., 2001, Asymmetric somatic hybridization between Triticum aestivum L. and Leymus chinensis (Trin) Tzvel, BAF (Springer verlag)，Vol49: 70-83(国际专著)

54. HM Chen, GM Xia et al. 1995, Regeneration of plants from Protoplasts of Bubleurum scorzonerifilum (Red Thorowax) and Saposhnikovia divaricata(Divarricate Sposhnikovia), BAF (Springer verlag) Vol. 34:14-23 (国际专著)

其它中文核心期刊论文:

55. 单雷，赵双宜*，陈芳，夏光敏*，2006，小麦体细胞杂种山融3号耐盐相关SSR标记的筛选和初步定位，中国农业科学，39(2):1-7

56. 陈秀玲，夏光敏*，陈惠民，2004, 小麦与羊草体细胞杂种的细胞核和细胞质基因组分析，植物生理与分子生物学学报，30(4):379-486

57. 高岭，李朔，侯丙凯，夏光敏，2003，小麦叶绿体基因组定点整合表达载体的构建，植物生理与分子生物学学报，29(5):469-473

58. Zhao Junsheng, Xue Zeyong, Zhi Daying, Xia Guangmin*, 2005, Research on Festuca arundinacea Transformation Mediated by Agrobacterium tumefaciens. ACTA GENETICA SINICA,.32(6 ): 579-585

59. Xue Zheyong, Ren Wei, Zhi Daying, Xia Guangmin, 2004,Transgenic Plant and Progenies of Wheat with Barley Leaf-type α-thionin Gene Mediated by Agrobacterium tumefaciens, CHINESE HIGH TECHNOLOGY LETTERS, 2004 14 (9 ):34-38(EI)

60. Li Zhidong, Xiang FN*, Xia GM, 2005，The Characterristics of Nuclear/Cytoplasmic Genomes of Asymmetric Somatic Hybrid of Daucus caucus carota var.sativa and Swertia mussotii, J. of plant physiol and molbiology (植物生理与分子生物学学报),31(3):254-260

61. Feng Deshun, Zhao Shuangyi, Chen Fanguo, Xia Guangmin*, 2003, Sequence of a y-subunit gene coding for the high-molecular-weight(HMW) glutenin from hybrid plant (F5) regenerated from somatic hybridization between Triticum aestivum L. Jinan 177 and Agroyron elongatum, J. of plant physiol and molbiology (植物生理与分子生物学学报), 26(6):598-601

62. Zhou Aifen，XIA Guangmin* et al.，2002，UV-fusion between protoplast of common wheat and Haynaldia villosa Schur. J. of plant physiol and mol.biology，28(4):305-310

63. Li Liangliang, Xia Guangmin*, Chen HM, 2001, Asymmetric somatic hybridization between common wheat and millet, Acta Physiol Sinica, 26(3):1-7

64. Song X Q, Xia G M, Chen H M, 2000, Chromosomal variation in long-term cultures of several related plants in Triticinae, Acta Phytophysiol Sinica, 26 (1): 33-38

65. 赵双宜，姚红艳，封德顺，夏光敏*，2005，优质小麦体细胞杂种中新的HMW麦谷蛋白亚基基因cDNA的克隆和测序，高技术通讯，15(171): 71-77(EI)

66. 于志勇，谭潇轶，薛哲勇，夏光敏*，2005，高冰草与小麦体细胞杂种后代的耐盐性和麦谷蛋白分析，高技术通讯，15 (172): (EI)

67. 单雷，赵双宜，权太勇，夏光敏，2004, 小麦与高冰草体细胞杂种耐盐新品系的盐胁迫应答cDNA差异表达分析，高技术通讯，14 (163): 29-33 (EI)

68. Gao Ling，Li Shuo，Hou Bingkai，* Xia Guangmin，2003，The Construction of Site-specific Integration and Expression Vector for Chloroplast Genome of Wheat，J. of plant physiol and molbiolog, 29(5):469-473

69. Xia GM*, Li ZY, He CX, Chen HM, 1999, Transgenic plant regeneration from wheat(Triticum aestivum) mediated by Agrobacterium tumefaciens, Acata Physiologica Sinica, 25(1): 22-28

70. 李翠玲，夏光敏*，2004，混合小麦亲本与新麦草不对称体细胞杂交新体系的建立，生物工程学报，20(4): 610-614

71. 赵庆臻，赵双宜*，夏光敏，2005，植物RNA沉默机制的研究进展，遗传学报，32 (1): 104-109

72. 夏光敏*，李忠谊，周爱芬，陈惠民，1999，用RAPD 技术鉴定小麦属间体细胞杂种，实验生物学报，32(3):266-270

73. 周爱芬，徐春晖，向凤宁，夏光敏*，陈惠民，1999，应用5S rDNA间隔序列分析鉴定体细胞杂种，生物工程学报，15(4):154-157

74. 周爱芬，夏光敏*，陈惠民，1996a，Co-g射线对簇毛麦细胞分裂和染色体变异的影响， 生物工程学报，12:127-130

75. 周爱芬，夏光敏，陈惠民，何世贤，陈建爱，1996b，60Co-γ射线对簇毛麦愈伤组织细胞的分裂及染色体的影响，生物工程学报，12:127-130

76. 夏光敏，李忠谊，周爱芬，郭光沁，陈惠民，1995，小麦胚性悬浮系与原生质体植株再生，生物工程学报，11(1) :63-66

77. 韩晓光，薛哲勇，支大英，夏光敏，2005，高羊茅胚性愈伤组织的高效诱导及其耐盐突变体时筛选，草业学报，14(6):112-118

78. Xia Guangmin, Li Zhongyi,，Guo Guangqin, Chen Huimin, 1993，Plant Regeneration from Cell Supension Derived Protoplasts of Heracleum moellendorffii，ACTA BOTANICA SINICA，35(9)730-732

79. Xia Guangmin，Chen Huimin, 1993，Effect of Plant Growth Regulators on Somatic Embryogenesis of Peucedanum terebinthaccum，ACTA BOTANICA SINICA，35(8)644-648

80. Xia Guangmin, Li Zhongyi,，Guo Guangqin, Chen Huimin, 1992，Protoplast Culture and Plant Regeneration of Angelica dahurica，ACTA BOTANICA SINICA，32(7)502-506

81. Guo GQ, Xia GM, Li Zhongyi, Chen HM, 1991, Derict somatic embryogenesis and plant regeneration from protoplast-derived cells of wheat (Triticum aestivum L.) Sci Chin Ser B 34::438-445

82. Xia Guangmin，Chen Huimin，1991，Ultrastructure of the Cell of Peucedanum terebinthaceum in Different Stages of Embryogenesis in Suspension Cell Culture，ACTA BOTANICA SINICA，33(6)482-485

83. Xia Guangmin, Li Zhongyi,，Guo Guangqin, Chen Huimin, 1991，Synchronous Embrogenesis and Plant Regeneration From Protoplast Culture of Anthriscus Sylvestris. Acta Biologiae Experimentalis Sinica1991,24(4)., 395-398

84. Chen Fanguo, Zhu Xiangyu, Xia Guangmin*, 2005, Study on a novel HMW glutenin subunit gene from Haynaldia villosa. 西北植物学报，25 (7): 1410-1415

85. 陈凡国，夏光敏，张学勇，2001，普通小麦与玉米不对称体细胞杂交的研究，西北植物学报，21(5):826-831

86. 陈凡国，封德顺，夏光敏*，2003，高冰草高分子量麦谷蛋白一个y亚基基因序列，分子植物育种，1(4):555-556

87. 陈凡国，封德顺，夏光敏*，2003，一个小麦ω-醇溶蛋白基因同源序列克隆，分子植物育种，4(2):600

88. 陈凡国，夏光敏*，2005，一个w-醇溶蛋白基因同源序列的分离与序列分析，遗传，27(6):941-947

89. 赵双宜，吴耀荣，夏光敏*，2002，介绍一种简单高效的植物总RNA提取方法，遗传， 24(3):337-338

90. 夏光敏*，由翠荣，陈惠民，1995, Co-g射线对羊草培养细胞的影响，核农学报 (ACTA AGR NUCLEATAE)，9:179~184

91. 张其鲁，夏光敏等，2005，利用细胞杂交后代进行小麦种质创新研究，麦类植物学报， 24(3):67-70

92. 周传恩，夏光敏*，2005，小麦胚拯救研究进展，麦类植物学报，21(3): 88-92

93. 王晶，向凤宁，夏光敏*，2003，小麦与高冰草体细胞杂种F5代的核型分析，麦类作物学报，23(1):12-16

94. 陈穗云，夏光敏*，陈惠民，冯素萍，2000，小麦与高冰草体细胞杂种植株与其亲本幼苗抗盐性比较，西北植物学报，20(3): 327-332

95. 封德顺，陈凡国，夏光敏*，2004，高冰草中一种新型高分子量麦谷蛋白亚基编码序列的研究，西北植物学报，24(2):237-242

96. 陈凡国，夏光敏*，2005，簇毛麦中一种新型高分子量麦谷蛋白亚基序列的研究，西北植物学报，25(7):1410

97. 陈穗云，罗振，权太勇，陈勇哲，夏光敏*，2003，小麦与高冰草不对称体细胞杂种F5代部分株系的根尖细胞染色体分析，热带作物学报，10(3):263-266

98. 王军 权太勇，夏光敏，2004，盐胁迫下小麦体细胞杂种与亲本幼苗的生长量和Na+、K+ 含量比较，热带亚热带植物学报，12(4):355-358

99. 赵同金，向凤宁，聂卉，夏光敏，陈惠民，2004，5S rDNA间隔序列分析和RAPD技术用于鉴定体细胞杂种，植物研究，24(1): 120-125

100.邢梅青，夏光敏，陈惠民，2001，小麦与禾草对称融合中杂种染色体与亲缘关系的初步研究，植物研究，21(1):77-81

101.吴耀荣，赵双宜，夏光敏，2002，植物抗白粉病分子机理研究进展，生物工程进展，22 (3):54-57

102.周爱芬，夏光敏*，陈惠民，1995，外加电场对小麦和簇毛麦原生质体分裂和生长发育的影响，植物学通报，12(1):52-53

103.秦余香 夏光敏*，2004，小麦的小孢子培养，植物学通报，21(5):625-630

104.徐春晖，夏光敏*，贺晨霞，2002，农杆菌转化系统研究进展，生命科学，14(4):223-225

105.陈秀玲，夏光敏*，2002，RAPD技术在植物遗传育种研究中的应用进展，生物技术通报，5: 13-16

106.张晓红，夏光敏，2005，多花黑麦草与青苗碱谷的体细胞杂交，山东大学学报，40(6):107-112

107.支大英，韩晓光，赵军胜，薛哲勇，夏光敏，2004，8种基因型的高羊茅的组织培养与植株再生，山东大学学报，39(4):109-114

108.陈凡国，张华，支大英，朱翔宇，夏光敏，2004，普通小麦的体细胞胚发生、发育相关蛋白质的毛细管电泳法鉴定，山东大学学报，39(3): 99-104

109.赵同金，权太勇，夏光敏*，陈惠民，2003，小麦与高冰草体细胞杂种F5代麦谷蛋白系SDS沉降值分析，山东大学学报，38(3):112-116

110.陈凡国，封德顺，夏光敏*，2003，野生一粒小麦着丝粒RCS1相关序列的克隆鉴定，山东大学学报，38(4):109-113

111.支大英，向凤宁，陈秀玲，夏光敏*，陈惠民，2003，普通小麦与玉米的体细胞杂交再生完整植株，山东大学学报，37(1): 80-83

112.赵同金，权太勇，夏光敏*，陈惠民，2003，小麦与高冰草体细胞杂种F5代麦谷蛋白系SDS沉降值分析，山东大学学报，38(3):112-116

113.吴耀荣，赵双宜，夏光敏*，2003，小麦幼叶cDNA文库的构建，山东大学学报(自然科学版)，38 (2):101-104

114.赵镝，陈穗云，夏光敏*，2002，小麦与高冰草体细胞杂种部分株系F5代花粉母细胞研究，山东大学学报，37:272-275

115.陈秀玲，赵同金，徐春晖，夏光敏*，2002，长期继代小麦培养细胞的染色体结构变异特征，山东大学学报(理学版)，37(6):553-556

116.岳玮，夏光敏*，陈惠民，冯素萍，2000，獐毛愈伤组织耐盐性研究及耐盐变异体的筛选，山东大学学报，35(3):338-343

117.周爱芬，夏光敏*，向凤宁，陈惠民，1999，单倍体小麦与簇毛麦的体细胞杂交，山东大学学报(自然科学版)，34(2):96-105

118.杨建，向凤宁，夏光敏*，陈惠民，1999，普通小麦与高冰草不对称体细胞杂种F2代-II 同工酶和蛋白质分析，山东大学学报(自然科学版)，34 (1):103-108

119.向凤宁，王晓莹，夏光敏*，陈惠民，1998，普通小麦与高冰草不对称体细胞杂种F2代-I 表型与性状分析，山东大学学报(自然科学版)，33 (4):448-454

120.夏光敏*，陈惠民，王槐，1995，小麦与高冰草原生质体融合与再生能力的恢复，山东大学学报，30(3):325-330

121.Xiang Fengning, Huang xianrong, Xia Guangmin*, 2003, Asymmetric somatic Hybridization Between Bupleurum Scorzonerifolium willd and Swertia musstii Franch, Journal of Shandong University, 8(2): 93-96

122.Huang xianrong, Xiang Fengning*, Xia Guangmin, 2002, Somatic hybridization between carrot and Bupleurum scorzonerifolium Willd and esteras isoenzyme analysis, Chinese Medical Journal, 27(12): 887-890

123.Huo Liyun, Xiang Fengning*, Xia guangmin, 2000, Asymmetric somatic hybridization between Peucedanum Terebinthaceum Fisch and Bupleurum Scorzonerifolium willd, Journal of Shandong University, 35(4): 465-468

124. Zhao Junsheng, Li Zidong, Xiang Fengning*, Xia Guangmin, 2004, Asymmetric Somatic Hybridization Between Daucus carota L. and Swertia musstii Franch. Journal of Shandong University. 39(6):108-111

125. Xiang Fengning, Xing Meiqing, Xia Guangmin*, et al., 1999, Tissue culture and antihepatitis constituent in calli of Swertia franchetiana H. Smith, Bulletin of Botanical Research, 19(1): 256-259

126. Huang xianrong, Xiang Fengning*, Xia Guangmin, 2002, Somatic hybridization between carrot and Bupleurum scorzonerifolium Willd and esteras isoenzyme analysis, Chinese Medical Journal, 27(12): 887-890

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