| 1. | Glucose isomerase for industrial use 工业用的葡萄糖异构酶 |
| 2. | The intraspecific difference of the triose phosphate isomerase gene from giardia lamblia 蓝氏贾第鞭毛虫磷酸丙糖异构酶基因种内差异研究 |
| 3. | Isomerase an enzyme that catalyzed the conversion of molecule from one isomeric form to another 异构酶:是能够催化底物分子进行结构转化的酶。 |
| 4. | Optimization of a fermentation medium for linoleic acid isomerase production with lactobacillus acidophilus 嗜酸乳杆菌发酵产亚油酸异构酶培养基条件的研究 |
| 5. | Expression of linoleate isomerase gene from lactobacillus reuteri pyr8 in escherichia coli and assay of its bioactivity 8亚油酸异构酶基因在大肠杆菌中的表达与活性检测 |
| 6. | For example , in glycolysis , glucose phosphate isomerase catalyzes the conversion of glucose 6 - phosphate to fructose 6 - phosphate 例如,在糖酵解过程中葡糖磷酸异构酶催化6 -磷酸葡糖转化成为6 -磷酸果糖。 |
| 7. | 3 . measuring expression of the associated molecular chaperone grp78 and the enzyme protein disulphide isomerase pdi affected by low expression of grp94 . ( 1 ) detecting mrna and p 检测grp94表达水平下降对相关分子伴侣grp78和pdi的影响( 1 )分别通过rt - pcr方法和westernblot方法从mrna和蛋白水平检测分子伴侣grp78的表达情况。 |
| 8. | It encodes a protein of 865 amino acids with a signal peptide at the n - terminus , of which a polycystic - kidney - disease ( pkd ) - like domain , a triosephosphate - isomerase ( tim ) catalytic region , a receptor - for - egg jelly ( rej ) - like domain and two tandem chitin - binding - domains ( chbds ) locate from the n - to c - terminus 根据已知几丁质酶基因的dna保守序列,利用人工合成的pcr引物和cb101总dna ,扩增出一个约2 . 6kb的片段并克隆到pbluescript ks载体上。 |
| 9. | Researches of schistosomiasis vaccines have gone more than 60 years , approximately including from the stages of dead vaccine and live vaccine ( irradiated attenuated cercariae vaccine ) to gene engineered vaccine , etc . many different forms of vaccines have been tested in animal models , including gluthathione s - transferase , paramyosin , irv - 5 , triose phosphate isomerase , sm23 , fatty acid binding protein ; which were considered promising by who / tdr . but none of them steadily accomplished the pre - set target level of 40 % protection . in order to enhance the protective capacity further , it is essential to develop novel vaccine antigens and / or vaccine adjuvants 血吸虫病疫苗研究已有60多年的历史,大致经历了死疫苗、活疫苗(照射致弱尾蚴疫苗)和基因工程疫苗等研究阶段,产生了一些who / tdr推荐认为很有希望的疫苗候选分子,如谷胱甘肽- s -转移酶( gst ) 、副肌球蛋白( sm97 ) 、照射致弱疫苗抗原5 ( irv - 5 ) 、磷酸丙糖异构酶( tpi ) 、曼氏血吸虫膜内在蛋白( sm23 )和脂肪酸结合蛋白( fabp , sm14 )等,但其对宿主的保护作用均不甚理想,未能稳定地达到40或以上的保护力水平,因此有必要继续寻找新的疫苗抗原分子和/或疫苗佐剂,进一步提高其保护力。 |
| 10. | Gene engineering technology is more superior than the cross breeding and directive breeding technology with its short cycle , low cost and high benefit . though traditional breeding technology has been used for a long time . now the direct reports for the changes of the flower color by the chi ( chalcone isomerase ) gene are a few what we known . 关于花色结构基因查尔酮异构酶chi ( chalconeisomerase )基因对花色改变的直接报道很少,因此,本论文选用了chi基因为目的基因,以纯深红色和纯白色矮牵牛( petuniahybidavilm . )为材料,研究了chi基因的共抑制和反义抑制以及表达产物增加对花色改良的作用,并在花色改变植株中首次观察到花器官变异。 |