This shift in alternative splicing may reflect an attempt of tissue repair and remodeling.
这种选择性连接的转变可能反映了组织修复和重建的某种尝试。
Alternative splicing plays an important role in processes such as development, differentiation and cancer.
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 is generally believed to occur more than 50% of actively transcribed human genes and thus is highly relevant to disease and therapy.
人类的基因中,超过50%的转录产物进行选择性剪接,而这机制和疾病发生、治疗方法有高度的相关性。
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。
The unique alternative splicing makes ZNF191, ZNF396 and ZNF397 genes encode two distinct proteins respectively.
这种独特的变异剪接形式使ZNF191、ZNF396和ZNF397基因分别产生两种不同的蛋白质。
Alternative splicing is often regulated in tissue-and developmental stage-specific manner, or in response to extracellular stimuli.
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.
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。
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