甜菜碱醛脱氢酶 meaning in Chinese
betaine-aldehyde dehydrogenase
Examples
- The purified badh , which became a single band in sds - page , has been obtained by a combination of ammonium sulfate fractionation , ion exchange chromatography and gel filtration chromatography
辽宁碱蓬甜菜碱醛脱氢酶分子量为129kd ,单个亚基的分子量为64 . 5kd ,表明其为同型二聚体。 - The library consisted of 1 . 3 x 106 clones with an average insert size of about 18kb . the capacity of this library was about 20 times the equivalent of the genome of atriplex centralasiatica iljin . screening the genomic library with a 400bp probe located at the 5 ' end of the badh gene obtained by rt - pcr , we got four positive clones
3x10 ‘个重组噬菌体,插入片段大小约为18kb ,含插入片段的频率为100队以中亚滨蓉甜菜碱醛脱氢酶门adh )基因近5 ’端的约400hp片段为探针,筛选中亚滨蓉基因组文库,得到了4个阳性克隆。 - In this research project , the agrobacterium tumefaciens mediated transformation of badh gene of tetraploid black locust has been studied , for the purpose of improving resistance to soline - alkali and drought of tetraploid black locust ; of playing more important role in developing of waste lands , ameliorating of soline - alkali soil , and greening and beautifying of surface - mined lands , mine waste dumps , slopes of roads and railroads where restoration of vegetative cover has proven difficult ; of fully making benefits of its ability to fix atmospheric nitrogen in the soil
为了进一步提高四倍体刺槐的耐盐性和抗旱性,进一步扩大其适宜种植的生态范围,充分发挥其固氮、改良土壤的特性,在我国的城镇绿化、荒山造林、盐碱地改良以及采矿迹地、公路、铁路边坡等植物生长困难土地的植被恢复中发挥其优势,本实验对四倍体刺槐进行了农杆菌介导的甜菜碱醛脱氢酶基因转化的研究。 - According to reference , this research is the first time to transfer practically productive aim - gene to tetraploid black locust , and it is also the first time to transfer badh gene to forest - tree . this research provide a useful way in improving resistance to soline - alkali and drought of forest tree
据资料检索,该研究属首次将具有生产意义的目的基因导入四倍体刺槐,也是首次将甜菜碱醛脱氢酶基因导入林木树种,在培育耐盐抗旱型林木品种方面进行了有益的探索。 - In higher plants , betaine is synthesized by a two - step oxidation of choline : choline - betaine aldehyde - betaine . the first step is catalyzed by choline monooxygenase ( cmo ) . the second step is catalyzed by betaine aldehyde dehydrogenase ( badh )
高等植物中,甜菜碱由胆碱经两步酶催氧化得到,即:胆碱- -甜菜碱醛- -甜菜碱,催化第一步反应的酶是胆碱单加氧酶( cholinemonooxygenase , cmo ) ,催化第二步反应的酶是甜菜碱醛脱氢酶( betainealdehydedehydrogenase , badh ) 。