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- No difference in MDA concentration was observed between AHA1 transgenic Arabidopsis and their wild-type plants. AHA1转基因拟南芥和野生型拟南芥MDA积累差异不大。铝处理增加拟南芥内源可溶性蛋白的累积。
- The secretion of citrate and malate from AHA1 transgenic Arabidopsis were 1.9-fold and 1.3-fold of those from wild-type plants. 铝显著诱导拟南芥苹果酸和柠檬酸分泌,AHA1转基因拟南芥柠檬酸和苹果酸分泌是野生型的1.;9和1
- Consequently, in this report suggested that a photosynthesis-related protein stimulate root hair growth result from the enhancement of ROS production in transgenic Arabidopsis. 总结来说,这篇论文指出在转殖阿拉伯芥中藉由光合作用蛋白提升过氧化物促进根毛生长。
- Vanadate, an inhibitor of plasma membrane H+-ATPase decreased the Al-induced secretion of citrate and malate by 29.3% and 50.8% in AHA1 transgenic Arabidopsis, and 50.0% and 58.3% in wild-type plants. 质膜H+-ATPase活性抑制剂钒酸盐显著抑制Al诱导的有机酸分泌。AHA1转基因拟南芥柠檬酸和苹果酸分泌分别降低29.;3%25和50
- AHA1 transgenic Arabidopsis thaliana AHA1转基因拟南芥
- It was shown that transgenic Arabidopsis had higher activities of GST, GPX and MDHAR than its wild type; 结果显示,转基因拟南芥比野生型具有较高的GST、GPX以及MDHAR酶活性;
- but salt stress did not obviously inhibit the growth of transgenic Arabidopsis and did not result in the accumulation of great amounts of peroxides. 而盐胁迫对转基因拟南芥的生长抑制不明显,也没有较多的脂质过氧化物的积累。
- Activation of Genes Presumed in Cytokinin Signal Pathway of Two-component System in Response to the Increased Cytokinin Contents in ipt-GUS Transgenic Arabidopsis 在ipt-GUS转基因拟南芥中双组分信号传导基因应答体内细胞分裂素的增加
- ipt-GUS transgenic Arabidopsis ipt-GUS转基因拟南芥
- transgenic Arabidopsis 转基因拟南芥
- Do the Public Accept Transgenic Products? 公众接受转基因产品吗?
- Gene dispersal risk of transgenic plants. 转基因植物的基因漂流风险。
- The transgenic efficiency was 3.5%(18/517). 转基因的总效率为3?5%25(18/517)。
- Transgenic Aphid-resistant Lycium barbarum L. 抗蚜虫转基因枸杞
- Transgenic metallothinanein Synechococcus sp. 转金属硫蛋白聚球藻
- Increasing expression of Arabidopsis CBF1, a key regulating factor in cold acclimation, increased the abiotic stress of variant transgenic plants. 摘要CBF是植物低温驯化过程中的关键性调控因子,过量表达CBF可显著提高转基因植物的非生物胁迫抗性。
- New Progress in Using Transgenic Plants as Bio-reactors! 转基因植物作为生物反应器的新进展!
- Uproar in Peru Over Diarrhea Treatment Grown in Transgenic Rice. 秘鲁反对在转基因稻米上生产腹泻治疗药物。
- Preliminary Report on the Grafting of Transgenic Cotton Plant. 转基因再生棉花嫁接初报。
- The ARGOS gene in Arabidopsis plays a key role in controlling plant organ size. 拟南芥ARGOS 基因在控制植物器官大小方面起到了重要作用。
