...信[本文68页] 水稻与陆稻的耐旱性及产量潜力的研究[本文59页] 不同地表覆盖旱作水稻的生长与水分[本文80页] 耐盐基因(mtlD)转化旱稻研究[本文69页] 水、陆稻主要形态、生理性状抗旱分[本文74页] 几个旱稻材料的配合力和分子标记聚[本文64页] 水肥处理...
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水稻耐盐数量性状基因 SKCI
耐盐相关基因 halo-tolerant-related gene
耐盐相关基因克隆 Cloning of salt-tolerance related gene
The laboratory tested experiments of introduction of Salt-tolerant Gene into BrassicaNapus of and tobacco Mediated by Cre/lox system during 2007-2009.
2007-2009年,本实验室开展应用Cre/lox系统将耐盐基因导入油菜、烟草的研究。
参考来源 - 油菜、烟草耐盐转基因的研究To transmit the salt-resistant gene to the fruit trees with inherited transform skill can cultivate better stock breeds.
通过遗传转化技术将耐盐基因导入果树中,培育出耐盐性更强的果树砧木品种。
参考来源 - 八棱海棠(Malus robusta Rehd.)和杜梨(Pyrus betulaefolia Bge.)PuNHA基因遗传转化研究Thus,if salt-tolerance gene could be introduced into soybean by the plant gene technology,the salt-tolerance of soybean could be improved,and the effect of its salt-tolerant capacity could be increased.
如果通过植物基因工程技术将耐盐基因导入大豆,就有可能培育出耐盐大豆新品种,改善大豆的耐盐性,提高大豆的耐盐能力。
参考来源 - 大豆子房滴注转化方法的研究及耐盐基因(AlNHX1)的转化·2,447,543篇论文数据,部分数据来源于NoteExpress
分离与鉴定植物耐盐基因对耐盐育种起着十分重要的作用。
Isolation and identification of salt tolerant genes play an important role in salt-tolerant breeding.
为了更好的理解大豆盐压力反应分子机制和克隆一些大豆中关键的耐盐基因。
To understand the molecular basis of soybean responses to salt stress better and clone several critical salt stress response genes in soybean.
植物耐盐性状是一个由多基因控制、涉及多代谢途径的复杂性状。
Salt tolerance of plant are complex traits controlled by many genes and involved by many metabolize approaches.
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