核小体结合亲和力作为先驱转录因子FoxA核迁移率的主要决定因素。
Nucleosome-binding affinity as a primary determinant of the nuclear mobility of the pioneer transcription factor FoxA.
作者信息
Sekiya Takashi, Muthurajan Uma M, Luger Karolin, Tulin Alexei V, Zaret Kenneth S
机构信息
Epigenetics and Progenitor Cells Program, Fox Chase Cancer Center, Philadelphia, Pennsylvania 19111, USA.
出版信息
Genes Dev. 2009 Apr 1;23(7):804-9. doi: 10.1101/gad.1775509.
Abstract
FoxA proteins are pioneer transcription factors, among the first to bind chromatin domains in development and enable gene activity. The Fox DNA-binding domain structurally resembles linker histone and binds nucleosomes stably. Using fluorescence recovery after photobleaching, we found that FoxA1 and FoxA2 move much more slowly in nuclei than other transcription factor types, including c-Myc, GATA-4, NF-1, and HMGB1. We find that slower nuclear mobility correlates with high nonspecific nucleosome binding, and point mutations that disrupt nonspecific binding markedly increase nuclear mobility. FoxA's distinct nuclear mobility is consistent with its pioneer activity in chromatin.
摘要
FoxA蛋白是先驱转录因子,是发育过程中最早结合染色质结构域并开启基因活性的因子之一。Fox DNA结合结构域在结构上类似于连接组蛋白,并能稳定地结合核小体。通过光漂白后的荧光恢复实验,我们发现FoxA1和FoxA2在细胞核中的移动速度比其他类型的转录因子(包括c-Myc、GATA-4、NF-1和HMGB1)慢得多。我们发现较慢的核内移动性与高非特异性核小体结合相关,破坏非特异性结合的点突变会显著增加核内移动性。FoxA独特的核内移动性与其在染色质中的先驱活性一致。
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