DNA Transcription (DNA To RNA) DNA转录(DNA到RNA)|细胞生物学 创元素 207 0 地理是玄学?用逻辑的利刃轻松瓦解难题! 正确的方法,加上刻意的练习,让付出的时间,看得到回报。 四川大学-细胞生物学(国家级精品课) 三十万个冷笑话 847 0 生物专家检测了10万人的DNA,这种饮食方式会要你的命!——The Diar...
在哺乳动物中,生物钟的分子机制被称为“转录-翻译负反馈循环”(Transcription-Translation Negative Feedback Loop,TTFL),由Clock,Bmal1, Per,Cry等多个核心时钟基因和蛋白构成巨大复合物及相互调控的负反馈调节环路,形成表达量层面的周期性震荡循环,再通过这些核心时钟蛋白对下游钟控基因的转录调节功能,从而实现...
In addition, the inherent differences between transcription and translation in MII oocytes and the variations among the individual MII oocytes were greater than those in GV oocytes, indicating more variations in MII oocytes than in GV oocytes (Supplementary Fig. 4a–c)....
生物通推荐原文摘要: Structural Switch of Lysyl-tRNA Synthetase between Translation and Transcription ysyl-tRNA synthetase (LysRS), a component of the translation apparatus, is released from the cytoplasmic multi-tRNA synthetase complex (MSC) to activate the transcription factor MITF in stimulated mast ...
在哺乳动物中,生物钟的分子机制被称为“转录-翻译负反馈循环”(Transcription-Translation Negative Feedback Loop,TTFL),由Clock,Bmal1,Per,Cry等多个核心时钟基因和蛋白构成巨大复合物及相互调控的负反馈调节环路,形成表达量层面的周期性震荡循环,再通过这些核心时钟蛋白对下游钟控基因的转录调节功能,从而实现时钟信号...
在哺乳动物中,生物钟的分子机制被称为“转录-翻译负反馈循环”(Transcription-Translation Negative Feedback Loop,TTFL),由Clock,Bmal1,Per,Cry等多个核心时钟基因和蛋白构成巨大复合物及相互调控的负反馈调节环路,形成表达量层面的周期性震...
We examined the mitochondrial transcription and translation products of somatic cell hybrids constructed by the fusion of Chinese hamster and mouse cells. The hybrid cell lines OAC-k, OAC-l, and OAC-m contain approximately equal amounts of hamster and mouse mitochondrial DNA and produced mitochondria...
Figure 17.23: A Summary of Transcription and Translation in a Eukaryotic CellCampbell, N AReece, J BMitchell, L G
A versatile coupled cell-free transcription-translation system based on tobacco BY-2 cell lysates Cell-free protein synthesis is a powerful method for the high-throughput production of recombinant proteins, especially proteins that are difficult to expr... Matthias,Buntru,Simon,... - 《Biotechnology...
Intracellular foreign RNAs are recognized by two groups of intracellular RNA sensors. Immune sensing receptors recognize 5′-triphosphate (ppp) ssRNA and short dsRNA to induce immune responses via activation of transcription and production of cytokines. This group includes RIG-I (retinoic acid-inducible...