此外,转录延伸速率也与可变剪接相关。
Moreover, the rate of transcription elongation has been linked to alternative splicing.
可变剪接在发育、分化和癌症等过程中发挥着非常重要的作用。
Alternative splicing plays an important role in processes such as development, differentiation and cancer.
研究基因的可变剪接对理解真核生物基因调控具有十分重要的意义。
Studying alternative splicing mechanism is of great significance to understanding eukaryote gene regulation.
剪接体组装与转录同步进行,提示DNA结构可能直接影响可变剪接。
Spliceosome assembly occurs co-transcriptionally, raising the possibility that DNA structure may directly influence alternative splicing.
可变剪接具有高度的组织与发育阶段特异性,并受到外界信号的控制。
Alternative splicing is often regulated in tissue-and developmental stage-specific manner, or in response to extracellular stimuli.
近年来,越来越多的研究表明可变剪接与癌症有着密切的关系,许多癌症相关基因受可变剪接调控。
In recent years, more and more researches showed that alternative splicing was highly relevant to cancer, and many cancer genes were regulated by alternative splicing.
近年来,越来越多的研究表明可变剪接与癌症有着密切的关系,许多癌症相关基因受可变剪接调控。
In recent years, more and more researches showed that alternative splicing was highly relevant to cancer, and many cancer genes were regulated by alternative splicing.
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