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1. Terpenes from Eupatorium adenophorum and Their Allelopathic Effect.. [3954]
2. o-Coumaric acid from invasive Eupatorium adenophorum is a potent p.. [423]
3. Post desiccation germination of mature seeds of tea (Camellia sine.. [333]
4. Phenylpropanoid esters of rhamnose from Buddleja asiatica [323]
5. Grifolin, a potential antitumor natural product from the mushroom .. [280]
6. Plant adaptation to frequent alterations between high and low temp.. [263]
7. Differential degradation of extraplastidic and plastidic lipids du.. [241]
8. Two new oleanane-type triterpenoids from Buddleja asiatica [238]
9. Lipid Profiling Demonstrates That Suppressing Arabidopsis Phosphol.. [225]
10. Plant lipidomics: Discerning biological function by profiling plan.. [224]
11. Profiling lipid changes in plant response to low temperatures [219]
12. 红豆杉高产悬浮细胞系建立及其紫杉醇诱导的研究进展 [212]
13. 富民枳微滴玻璃化法超低温保存方法 [211]
14. CRYOPRESERVATION OF PROTOCORM-LIKE BODY-DERIVED SHOOT TIPS OF CALA.. [207]
15. Monoterpenoid Indole Alkaloids from the Bark of Alstonia scholaris [188]
16. Turnover of Glycerolipid Metabolite Pool and Seed Viability [182]
17. 种质库介绍 [168]
18. 圆锥南芥适应高山环境极端高温的系统性耐热能力 [163]
19. CO_2浓度升高和不同氮源对紫茎泽兰生长及光合特性的影响 [161]
20. 用N-酰基乙醇胺提高植物种子超低温保藏后存活率的方法及其应用 [159]
21. How membranes organize during seed germination: three patterns of .. [151]
22. Profiling membrane glycerolipids during gamma-ray-induced membrane.. [144]
23. Maintenance or Collapse: Responses of Extraplastidic Membrane Lipi.. [139]
24. Acyl Chain Length of Phosphatidylserine Is Correlated with Plant L.. [130]
25. 植物在缺钾胁迫中膜稳定性的变化 [127]
26. 苦苣苔科植物超低温保存方法 [127]
27. Membrane Lipid Remodelling of Meconopsis racemosa after Its Introd.. [126]
28. 一种提高植物种子吸胀冷害抗性的方法 [126]
29. 分析拟南芥叶片在激素促进的衰老中内源激素变化来解析抑制磷脂酶Dα1延.. [123]
30. 用N-酰基乙醇胺提高植物种子吸胀冷害抗性的方法 [123]
31. 拟南芥角果衰老过程中膜脂的变化 [121]
32. Methanol-Promoted Lipid Remodelling during Cooling Sustains Cryopr.. [114]
33. Glycerolipidome responses to freezing- and chilling-induced injuri.. [105]
34. Specialized metabolites from Ageratina adenophora and their inhibi.. [104]
35. Comparative profiling of membrane lipids during water stress in Th.. [95]
36. 大豆种子吸胀冷害抗性与其质体膜脂不饱和度正相关 [94]
37. The plasma membrane-localised Ca2+-ATPase ACA8 plays a role in suc.. [92]
38. 植物适应长期缺钾——积累叶片膜脂、维持根膜脂组成不变 [89]
39. Two phases of response to long-term moderate heat: Variation in th.. [86]
40. 拟南芥热激蛋白基因HSP101及其T-DNA插入突变株hot1的应用 [67]
41. 高温对三棱栎种子萌发及活力的影响 [66]
42. 拟南芥At-ACA8基因在植物抗逆及调控植物生长发育中的应用 [62]
43. 植物根尖干细胞不对称分裂调控通路的一种抑制剂及其应用 [61]
44. 植物生长素极性运输的促进剂及其应用 [58]
45. 高山植物圆锥南芥的光合系统耐热性及其修复机制(英文) [56]
46. 拟南芥丝氨酸羧肽酶类蛋白基因SCPL41及其突变体的应用 [55]
47. 拟南芥中磷脂酶Dδ参与机械伤害诱导的磷脂酸生成(英文) [54]
48. 植物根尖干细胞不对称分裂调控通路的两种促进剂及其应用 [49]
49. 拟南芥At‐UGE2基因及其过表达突变株和缺失突变株在调节植物性状中的应.. [44]
50. Characterisation of Lipid Changes in Ethylene-Promoted Senescence .. [36]
51. Phospholipase D1-mediated phosphatidic acid change is a key determ.. [28]
52. 一种提高拟南芥茎尖超低温保存后再生率的方法 [28]
53. 一种西藏虎头兰茎尖微滴玻璃化法超低温保存方法 [25]
54. 一种苦苣苔科植物的组织培养方法 [16]
55. Profiling membrane glycerolipids during γ-ray-induced membrane in.. [16]
56. 一种利用细胞薄层培养高效组培虾脊兰属植物的方法 [10]
57. 黑腹果蝇成虫生长过程的脂质组分析 [10]
58. Submergence induced changes of molecular species in membrane lipid.. [8]
59. Phospholipase D antagonist 1-butanol inhibited the mobilization of.. [7]
60. 磷脂酶Dδ缺失加剧UV-B诱导的膜伤害 [7]
61. 珍稀濒危植物三棱栎种子的储藏特性鉴定 [6]
62. 分析拟南芥叶片在激素促进的衰老中内源激素变化来解析抑制磷脂酶Dα1延.. [6]
63. Phospholipase D antagonist 1-butanol inhibited the mobilization of.. [6]
64. Profiling Membrane Lipids in Plant Stress Responses [5]
65. 圆锥南芥适应高山环境极端高温的系统性耐热能力(英文) [5]
66. 高山植物圆锥南芥的光合系统耐热性及其修复机制 [5]
67. The plasma membrane-bound phospholipase Dδ enhances freezing tole.. [4]
68. Submergence induced changes of molecular species in membrane lipid.. [4]
69. 二氧化碳浓度升高加速滇重楼生物量积累的方法 [4]
70. 冬油菜和春油菜在冷驯过程中膜脂分子的变化 [3]
71. 金属离子胁迫产生植物膜脂过氧化的能力与离子的极化能力正相关 [2]
72. 一种加速滇重楼重楼皂苷I和重楼皂苷II积累的方法 [2]
73. 重要生化反应“转移磷脂酰反应”的研究进展 [1]
74. 儿茶素诱导的拟南芥根细胞膜脂变化(英文) [1]

Downloads

1. Terpenes from Eupatorium adenophorum and Their Allelopathic Effect.. [640]
2. o-Coumaric acid from invasive Eupatorium adenophorum is a potent p.. [147]
3. Post desiccation germination of mature seeds of tea (Camellia sine.. [140]
4. Profiling lipid changes in plant response to low temperatures [105]
5. Differential degradation of extraplastidic and plastidic lipids du.. [73]
6. Phenylpropanoid esters of rhamnose from Buddleja asiatica [71]
7. Plant adaptation to frequent alterations between high and low temp.. [70]
8. Two new oleanane-type triterpenoids from Buddleja asiatica [69]
9. Grifolin, a potential antitumor natural product from the mushroom .. [63]
10. CRYOPRESERVATION OF PROTOCORM-LIKE BODY-DERIVED SHOOT TIPS OF CALA.. [59]
11. 红豆杉高产悬浮细胞系建立及其紫杉醇诱导的研究进展 [53]
12. Plant lipidomics: Discerning biological function by profiling plan.. [50]
13. Methanol-Promoted Lipid Remodelling during Cooling Sustains Cryopr.. [49]
14. 拟南芥角果衰老过程中膜脂的变化 [39]
15. 圆锥南芥适应高山环境极端高温的系统性耐热能力 [38]
16. Monoterpenoid Indole Alkaloids from the Bark of Alstonia scholaris [36]
17. The plasma membrane-localised Ca2+-ATPase ACA8 plays a role in suc.. [32]
18. Lipid Profiling Demonstrates That Suppressing Arabidopsis Phosphol.. [31]
19. 富民枳微滴玻璃化法超低温保存方法 [28]
20. How membranes organize during seed germination: three patterns of .. [28]
21. 种质库介绍 [27]
22. CO_2浓度升高和不同氮源对紫茎泽兰生长及光合特性的影响 [23]
23. 植物适应长期缺钾——积累叶片膜脂、维持根膜脂组成不变 [22]
24. Comparative profiling of membrane lipids during water stress in Th.. [20]
25. 高山植物圆锥南芥的光合系统耐热性及其修复机制(英文) [19]
26. Two phases of response to long-term moderate heat: Variation in th.. [19]
27. Membrane Lipid Remodelling of Meconopsis racemosa after Its Introd.. [18]
28. 植物在缺钾胁迫中膜稳定性的变化 [18]
29. 拟南芥中磷脂酶Dδ参与机械伤害诱导的磷脂酸生成(英文) [18]
30. 大豆种子吸胀冷害抗性与其质体膜脂不饱和度正相关 [17]
31. 分析拟南芥叶片在激素促进的衰老中内源激素变化来解析抑制磷脂酶Dα1延.. [17]
32. Acyl Chain Length of Phosphatidylserine Is Correlated with Plant L.. [16]
33. 高温对三棱栎种子萌发及活力的影响 [15]
34. 一种提高植物种子吸胀冷害抗性的方法 [13]
35. 拟南芥丝氨酸羧肽酶类蛋白基因SCPL41及其突变体的应用 [13]
36. Maintenance or Collapse: Responses of Extraplastidic Membrane Lipi.. [12]
37. Glycerolipidome responses to freezing- and chilling-induced injuri.. [12]
38. 用N-酰基乙醇胺提高植物种子吸胀冷害抗性的方法 [11]
39. 用N-酰基乙醇胺提高植物种子超低温保藏后存活率的方法及其应用 [10]
40. 苦苣苔科植物超低温保存方法 [10]
41. 拟南芥热激蛋白基因HSP101及其T-DNA插入突变株hot1的应用 [10]
42. Characterisation of Lipid Changes in Ethylene-Promoted Senescence .. [7]
43. Profiling membrane glycerolipids during gamma-ray-induced membrane.. [7]
44. 拟南芥At-ACA8基因在植物抗逆及调控植物生长发育中的应用 [6]
45. 冬油菜和春油菜在冷驯过程中膜脂分子的变化 [3]
46. 珍稀濒危植物三棱栎种子的储藏特性鉴定 [2]
47. 金属离子胁迫产生植物膜脂过氧化的能力与离子的极化能力正相关 [2]
48. 磷脂酶Dδ缺失加剧UV-B诱导的膜伤害 [2]
49. 分析拟南芥叶片在激素促进的衰老中内源激素变化来解析抑制磷脂酶Dα1延.. [2]
50. Profiling Membrane Lipids in Plant Stress Responses [1]
51. 重要生化反应“转移磷脂酰反应”的研究进展 [1]
52. 儿茶素诱导的拟南芥根细胞膜脂变化(英文) [1]
53. 圆锥南芥适应高山环境极端高温的系统性耐热能力(英文) [1]