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- You may break the TRK 00 Stop inside the drive. 否则可能损坏硬盘里的0磁道限位器。
- When done TRK will show connected. 当做TRK会显示连接。
- By default TRK starts in Bluetooth mode, cancel it. 根据预设TRK开始在蓝牙模式,取消它。
- Exit from the TRK on your phone and then disconnect the cable. 退出TRK您的手机,然后断开电缆。
- Transfer the TRK SIS file to your phone and install it to phone memory. 复制TRK.;SIS到你的手机并安装到手机内存里。
- Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase (donor substance) to an aldose (acceptor substance). 摘要转酮醇酶是磷酸戊糖途径的关键酶,催化二碳单元在酮糖(供体)和醛糖(受体)间的转移。
- Transketolase is the key enzyme of pentose-phophate pathway,catalyses transfer of a two-carbon fragment from a ketolase(donor substance) to an aldose(acceptor substance). 转酮醇酶是磷酸戊糖途径的关键酶,催化二碳单元在酮糖(供体)和醛糖(受体)间的转移。
- The application of transketolase for industrial purpose,such as production of ethanol,biosynthesis of aromatic amino acids and enantiotopic chemicals were reviewed. 本文综述了该酶的工业生产及应用领域,如乙醇生产,芳香族氨基酸和手性物质的生物合成等。
- The application of transketolase for industrial purpose, such as production of ethanol, biosynthesis of aromatic amino acids and enantiotopic chemicals were reviewed. 本文综述了该酶的工业生产及应用领域,如乙醇生产,芳香族氨基酸和手性物质的生物合成等。
- Abstract: Transketolase is the key enzyme of pentose-phophate pathway,catalyses transfer of a two-carbon fragment from a ketolase(donor substance) to an aldose(acceptor substance). 摘 要: 转酮醇酶是磷酸戊糖途径的关键酶,催化二碳单元在酮糖(供体)和醛糖(受体)间的转移。
- Abstract: Transketolase is the key enzyme of pentose-phophate pathway, catalyses transfer of a two-carbon fragment from a ketolase(donor substance) to an aldose(acceptor substance). 文章摘要: 转酮醇酶是磷酸戊糖途径的关键酶,催化二碳单元在酮糖(供体)和醛糖(受体)间的转移。
- The results indicated that the prevalent pathotypes were TRK,TRT,PHT and THT with the frequency of 19 6%,9 8%,6 5% and 6 5% respectively,among the 27 detected pathotypes. The analysis of virulence dynamics of Puccinia recondite f. 在发现的 2 7个致病类型 (毒性基因组合 )中 ,TRK ,TRT ,PHT ,THT出现频率分别为 19 6%25 ,9 8%25 ,6 5%25 ,6 5%25 ,为优势致病类型。
- The transketolase affected Bacillus mutant couldn't grow on the media,which used gluconic acid as sole carbon source,while it showed a potential to convert gluconic acid into D ribose. 枯草芽孢杆菌转酮酶缺陷突变株不能以D-葡萄糖酸为唯一碳源生长,但其作为D-核糖的前体则是有效的。
- erythrocyte transketolase activation coefficient 红细胞转酮醇酶活化系数
- erythrocyte transketolase activity 红细胞转酮醇酶活性
- tyrosine kinase receptor A( Trk A) 酪氨酸激酶受体A
- Transketolase and its applications for industrial purpose 转酮醇酶及其工业应用
- Keywords L-Histidine;Corynebacterium glutamicum;Transketolase;Fermentation; 组氨酸;谷氨酸棒杆菌;转酮酶;发酵;
- Keywords Bacillus subtilis C1-B941;transketolase mutant;D-ribose fermentation; 枯草芽孢杆菌C1-B941;转酮醇酶变异株;D-核糖发酵;
- The Immunohistochemical Study for the Distribution of TrK C in Spinal Cord and Dorsal Root Ganglion of Adult Cats TrK C在成年猫脊髓和背根节的分布
