组蛋白标记经由一个染色质结合蛋白质,通过影响剪接调控子的招募而影响剪接结果。
Histone marks affect splicing outcome by influencing the recruitment of splicing regulators via a chromatin-binding protein.
组蛋白既保护DNA也在它们与DNA结合形成染色质时调节基因表达。
Histone proteins both protect DNA and regulate genes as they combine with DNA to form chromatin.
蛋白包含多种分子,不但可以结合激酶,还能募集染色质、转录、剪切和翻译因子。
K protein contains multiple modules that, on one hand, bind kinases while, on the other hand, recruit chromatin, transcription, splicing and translation factors.
染色体由染色质组成,而染色质则是DNA被一组称为组蛋白的蛋白质包裹而成:四种相似的组蛋白结合形成一个圆柱形的线缆包裹着DNA。
These are made of chromatin, which combines DNA with a set of proteins known as histones; four similar histones join together to form a cylindrical spool around which the DNA wraps.
Cdc7与CDT1配合磷酸化结合在染色质上的MCM蛋白,募集复制因子cdc45 (3 - 5)。
Cdc7 phosphorylates MCM proteins bound to chromatin and, in conjunction with CDT1, recruits the replication factor cdc45 (3-5).
Cdc7与CDT1配合磷酸化结合在染色质上的MCM蛋白,募集复制因子cdc45 (3 - 5)。
Cdc7 phosphorylates MCM proteins bound to chromatin and, in conjunction with CDT1, recruits the replication factor cdc45 (3-5).
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