Dissertation 

About 69 item dissertation in line with BADH query results,the following is 1 to 50(Search took 0.048 seconds)

  1. Cloning and Expression Analysis of the Melon's CmMAPK、CmBADH、CmP5CS Genes and Transformation,CongHongZi/Shandong Agricultural University,0/14
  2. Research on Optimization of Soybean Hypocotyl Regeneration and Preliminary Research on Betaine Aldehyde Dehydrogenase Gene Transformation,GuoQiuYun/Nanjing Agricultural College,0/4
  3. Subchronic Feeding Study of Transgenic BADH Alfalfa on Rabbits,ZhongFeng/Shandong Agricultural University,0/16
  4. Calcium Signal and Heat Shock Protein Mediate Tolerance in BADH Transgenic Plainllltss,LiMeiFang/Shandong Agricultural University,0/69
  5. Constitutive and Salt-inducible Expression of BADH Gene in Transgenic Tomato(Solanum Lycopersicum L. cv. Micro-Tom) Enhances Salt Tolerance,WangZuoYu/Liaoning Normal University,0/1
  6. Expression Analysis of SIBADH in the Halophyte Suaeda Liaotungensis K. and pB-BADH Transgenic Tobacco under Abiotic Stress,ZhangYinYin/Liaoning Normal University,0/2
  7. Researches on the Dwarf Mechanism and Stress Tolerance of Transgenic Perennial Ryegrass with DREB1A and BADH-CMO Gene,BaoYongXia/Beijing Forestry University,0/200
  8. Isolation and Expression Analysis of ALDH Superfamily Genes from Chrysanthemum Lavandulifolium and Genetic Modification of Cut-Chrysanthemum Using DlBADH,NiuYaJing/Beijing Forestry University,0/60
  9. Preliminary Studies on3Stress-resistance Genes (BADH、CMO and NECD) of Lycium Barbarum,LuPing/South China University of Technology,0/129
  10. Cloning and Sequence Analysis of the Safflower Betaine Aldehyde Dehydrogenase (BADH) Gene,WangYuanBiao/Sichuan Agricultural University,0/23
  11. Effects of Transgenic BADH Soybean on the Phosphorous Transformation in Saline-alkaline Soil,YuZuo/Northeast Agricultural University,0/125
  12. Studies on Physiological and Biochemical Responses of Halocnermum Strobilaceum to Salt Stress and Thecloning of Its Betaine Aldehyde Dehydrogenase Gene,SuDan/Gansu Agricultural University,0/138
  13. Construction of Full-length cDNA Library of Sesuvium Portulacastrum L. and Cloning of Salt Tolerance-related Gene,ZhengShanQing/Hainan University,0/27
  14. Studies on Physiological and Biochemical Responses of Two Perennial Halophytes: Kalidium Foliatum and Halostachys Caspica to Salt Stress and Salt-tolerant Genes Cloning and Expression,ZengYouLing/Xinjiang University,0/453
  15. Studies on the Method of Genetic Transformation and Utilization of Salt-tolerant and Herbicide-resistant Genes in Cotton,JiangYuRong/Zhejiang University,2/483
  16. Regeneration System and Agrobacterium-Mediated Transformation in Brassica Napus L.,HanDeJun/Northwest University of Science and Technology,1/486
  17. Improved Salt Tolerance by Transformation of Plants with BADH and SeNHX1 Genes,ZhouShuFeng/Institute of Botany,3/564
  18. Studies on Transformation of Lespedeza Formosa with BADH GENE,HuDongNan/Beijing Forestry University,0/251
  19. Genetic Transformation of Drought-resistance and Salt-resistance Gene in Kentucky Bluegrass(Poa Pratensis L.),XinJinNa/Beijing Forestry University,0/455
  20. Cloning and Transient Expression Assay of BADH Gene Promoters from Dendronthema Lavandulifolium,LiuZhenLin/Beijing Forestry University,4/763
  21. Establishment of High Frequency Regeneration System and Transferring Betaine Aldehyde Dehydrogenase(BADH) Gene Via Particle Bombardment in Poa Pratensis L.,DuanBiHua/Beijing Forestry University,3/212
  22. Studies on Increasing Stress Resistance of Potato by Genetic Engineering of Betaine Aldehyde Dehydrogenase,ZhangNing/Gansu Agricultural University,15/530
  23. Transformation of Tomato with the BADH Gene from Atriplex hortensis Improves Salt Tolerance,JiaGengXiang/Institute of Botany,11/470
  24. Improvement of Salt Tolerance through Biotechnology and 1/3 Seawater Hydroponic of the Salt Tolerant Vegetables,LiYinXin/Institute of Botany, Chinese Academy of Sciences,1/497
  25. Somatic Embryogenesis of Hippophae Rhamnoides L. and Related to Study on Genetic Transformation of Arabidopsis Thaliana (Linn.) Heynh. with BADH,LiJun/Beijing Forestry University,0/144
  26. Functional Analysis of BADH Gene Promoter from Chrysanthemum Lavandulifolium and the Isolation of Inducible Promoter,CaoHuaZuo/Beijing Forestry University,2/476
  27. Studies on Physiological and Biochemical Characteristics of Transgenic Populus Tomentosa Carr. and Construction of Multiple Gene Expression Vector,JiaXiangZuo/Beijing Forestry University,0/290
  28. Salt Tolerance Gene Expression Profile Analysis and BADH Gene Transformation of Lisianthus (Eustoma Grandiflorum),WangJiGang/Northeast Forestry University,1/202
  29. Study on Genitic Transformation of Lespedeza Bicolor Turcz. with BADH Gene & Antisense 4CL Gene,YangXiaoHong/Beijing Forestry University,1/183
  30. Studies on Pea Catalase Gene Expression in Plant Chloroplasts and Stress-resistance Analysis,TianZuo/Qufu Normal University,1/153
  31. Researches on the Genetic Transformation of BADH Gene to Watermelon(Citrullus Lanatus),SunZhiTu/Southwestern University,2/127
  32. Studies on Regeneration in Vitro and BADH Gene Transformation of Blueberry,BiHaiTao/Jilin Agricultural University,0/120
  33. Identification of Salt-tolerance of Transgenic Potato with BADH Gene,LiDongKui/Gansu Agricultural University,1/231
  34. Studies on Physiological Mechanisms of Over-accumulating Glycinebetaine in Improving the Salt Tolerance in Wheat,LiangChao/Shandong Agricultural University,0/135
  35. Studies on Regeneration System and Transformation of BADH Gene in Leymus Chinensis,QuTongBao/Jilin Agricultural University,2/122
  36. Cloning of BADH Genes from Atriplex Triangularis,HeXiaoLan/Nanjing Agricultural College,1/113
  37. Studies on Establishment of Regeneration System and Transformation of BADH Gene of Fraxinus Velutina Torr.,ZongLi/Gansu Agricultural University,4/85
  38. Establishment of High-efficiency Agrobacterium-mediated BADH Gene Transformation System of Tetraploid Black Locust and Detection of Transgenic Plants,WangWenQiang/Gansu Agricultural University,1/103
  39. Study on Transformation of P.alba Var.Pyrarridalis and P.alba Var.Payrarridalis×P.alba L with a Gene Encoding for the Betaine a Aldehyde Dehydrogenase (BADH),ChengQiang/Nanjing Forestry University,1/127
  40. Initiate Study on Improving the Salt-tolerance of Rice by Genetic Engineering,LiJinHua/Sichuan Agricultural University,1/142
  41. The Analysis of Cell Architecture, mRNA Differential Display and BADH Sequences of Different Salt-tolerant Varieties in Cotton,LiYuQuan/Shandong Agricultural University,3/193
  42. The Identification of Grape Varieties Tranferred with Betaine-aldehyde Dehydrogenase Gene,LiuJianQiang/Shandong Agricultural University,0/85
  43. Transformation of Medicago.sativa by Agrobacterium Tumefaciens and Regeneration Via Somatic Embryogenesis of Transgenic Plants with BADH Gene,HuangJian/Gansu Agricultural University,7/171
  44. Studies on Establishment of High Frequency Regeneration System and Transformation of BADH Gene of Tetraploid Black Locust,LiXiaoYu/Gansu Agricultural University,1/93
  45. Research on Transformation of Choline Monooxygenase Gene and Betaine Aldehyde Dehydrogenase Gene into Soybean,ZuoYanZuo/Jilin Agricultural University,4/252
  46. The Responses of Photosynthesis in Tobacco with the BADH Gene to Drought and Strong Light Stresses,WangGuiPing/Shandong Agricultural University,1/186
  47. Studies on Transforming Tobacco by Relevant Gene of Drought Resistance,WangFengDe/Shandong Normal University,1/187
  48. Agrobacterium Mediated Transformation of BADH to the AtNHX1 Transgenic Tomato (Lycopersicum Esculentum L. ’Moneymaker’),LiuJing/Institute of Botany,0/270
  49. Tansformation of Salt Tolerant Gene in Upland Rice (Oryza Sativa L.) and Slat-tolerance Ability Evaluation,ZhangLi/China Agricultural University,0/183
  50. The related traits Test of sugarcane germplasm RAPD analysis of genetic relationship with drought,ZengHuaZong/South China University of Tropical Agriculture,4/110

Total 2 Pages First Previous 1 2 Next Last

© 2012 www.DissertationTopic.Net  Mobile