glycine betaine
英
美
甘氨酸甜菜碱
双语例句
- Physiological Effects of Glycine Betaine under High Temperature Stress of Kidney Bean Seedlings
外源甜菜碱对高温胁迫下菜豆幼苗的生理效应 - The Transformation of Genes Related to Glycine Betaine Biosynthesis from Salicornia Europaea Improves Salt-tolerance of Populus × Eurnmericana and Tobacco
转盐角草甜菜碱合成相关基因提高欧美杨107和烟草的耐盐性 - Exogenous Application of Calcium Chloride and Glycine Betaine Improve Drought Tolerance in Wheat
外源钙和甜菜碱提高小麦抗旱性研究 - So genes implicated in expressing glycine betaine are considered as the most important and the most promising plant salt-tolerant genes.
因此甜菜碱合成酶基因被认为是最重要和最有希望的盐胁迫抗性基因。 - Molecular mechanisms for interaction of glycine betaine with supra-molecular phycobiliprotein complexes
甜菜碱与藻胆蛋白超分子复合体相互作用的分子机制 - Glycine betaine ( GB) is one o the major organic osmolytes that accumulate in a variety of plant species in response to environmental stresses.
甘氨酸甜菜碱是某些植物在应对环境胁迫时所产生的一种主要的有机渗透调节剂。 - Depending on the degenerate primers which were designed according to the conserved amino acids of glycine betaine secondary transporter, a fragment about 1 kb was obtained by PCR.
利用上述合成的简并引物,PCR扩增获得甘氨酸甜菜碱转运蛋白beth基因约1kb大小的片段。 - Effects of different glycine betaine concentrations on cold resistance on rice seedlings by root application;
对水稻乳苗抛栽技术的研究概况、操作程序和发展前景进行了分析。 - Glycine betaine is one of the most important substances accumulated in plants, which can maintain the osmotic pressure in cells, and it can keep important enzymes in natural activity.
在渗透胁迫条件下,甜菜碱是高等植物中最主要的代谢积累产物之一,可以维持细胞的正常膨压,使许多代谢中的重要酶类保持活性。 - BADH gene encodes for betaine aldehyde dehydrogenase, an important enzyme for the biosynthesis of glycine betaine that plays a definite role in stress tolerance through osmoregulation.
BADH是甜菜碱乙醛脱氢酶的编码基因,该酶是甜菜碱生物合成的一种关键酶,甜菜碱通过渗透调节发挥抗逆作用。 - The accumulation of glycine betaine in E.
中有甘氨酸甜菜碱的积累。 - When exogenously supplied, DLL-1 cells accumulated exogenous glycine betaine rapidly from medium to balance the extracellular osmolality instead of the synthesis of compatible solutes.
在渗透胁迫条件下,细胞从外界快速吸收外源甜菜碱来代替自身相容性溶质的合成。 - Biosynthetic Pathway of Glycine Betaine and its Application in Genetic Engineering
甜菜碱合成途径及其在基因工程育种中的应用 - Exogenous glycine betaine increased the polyamines content of roots dramatically, facilitated the conversion of Putrecine ( Put) and Spermidine ( Spd) to Spermine ( Spm) and enhanced the ratio of ( Spd+ Spm)/ Put in leaves obviously.
甜菜碱可以显著提高盐胁迫下大麦幼苗根系多胺含量,促进叶片内腐胺与亚精胺向精胺的转化,提高叶片的(Spd+Spm)Put的比值。 - Glycine betaine is regarded as one of the most promising osmolytes to improve salt tolerance of plant. But tomato unable to synthesize glycine betaine.
番茄也是基因工程的模式生物之一,甜菜碱被认为是最有希望的耐盐渗透调节物质之一,但是番茄自身不能合成甜菜碱。 - Glycine betaine to improve crop resistance has been widely proved.
甘氨酸甜菜碱在作物抗逆中发挥的作用已被广泛认识。 - Rice, one of the most important crops, has been claimed as a salt-sensitive species and does not have the ability to accumulate glycine betaine.
重要粮食作物水稻对环境胁迫敏感,不积累甘氨酸甜菜碱。 - Based on this, non-volatile flavor substances of the cultured large yellow croaker and wild large yellow croaker were analysed systematically, including free amino acids, water-soluble short peptide, ATP and the associated contents: TMAO, glycine betaine, organic acid, inorganic ions.
在此基础上系统分析了养殖大黄鱼和野生大黄鱼中非挥发性的滋味物质,包括游离氨基酸、水溶性小分子肽、ATP及其关联物、季胺碱、有机酸、无机离子等。 - Choline Monooxygenase ( CMO) is a ferredoxin-dependent stroma enzyme which catalyzes the first step of glycine betaine synthesis in plants.
胆碱单加氧酶(CMO)是植物体内催化胆碱合成甜菜碱第一步反应过程中的关键酶,它的表达是受盐诱导的。