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引用次数: 0
摘要
大多数 DNA 扫描蛋白都能独特地识别它们的同源序列图案,并在某种夹持界面的辅助下在 DNA 上滑动。在真核生物中,控制细胞命运的先驱转录因子必须放弃这两种元素,才能获得裸DNA和染色质形式的DNA;因此,这些因子是否或如何扫描裸DNA尚不清楚。在这里,我们利用单分子技术研究了裸DNA扫描的啮合同源结构域(enHD),它是高度杂乱识别和开放式DNA结合界面的典范。我们发现,enHD 扫描裸 DNA 的效率相当高,比预期的连续杂交滑动快约 20 万倍。为此,enHD 在 100 毫秒内扫描约 675 bp 的 DNA,然后在 10 毫秒内随机重新部署到 530 bp 之外的另一个位置。在扫描阶段,enHD 分别每 3 毫秒和 40 毫秒交替使用慢速和中速模式。我们还发现,enHD 能与核小体结合,而且与裸 DNA 相比亲和力更强。我们的研究结果表明,类先驱转录因子原则上可以同时针对核小体和有效扫描活性 DNA。enHD使用的混合扫描机制似乎特别适合真核细胞高度复杂的基因组信号。
How to scan naked DNA using promiscuous recognition and no clamping: a model for pioneer transcription factors
Most DNA scanning proteins uniquely recognize their cognate sequence motif and slide on DNA assisted by some sort of clamping interface. The pioneer transcription factors that control cell fate in eukaryotes must forgo both elements to gain access to DNA in naked and chromatin forms; thus, whether or how these factors scan naked DNA is unknown. Here, we use single-molecule techniques to investigate naked DNA scanning by the Engrailed homeodomain (enHD) as paradigm of highly promiscuous recognition and open DNA binding interface. We find that enHD scans naked DNA quite effectively, and about 200000-fold faster than expected for a continuous promiscuous slide. To do so, enHD scans about 675 bp of DNA in 100 ms and then redeploys stochastically to another location 530 bp afar in just 10 ms. During the scanning phase enHD alternates between slow- and medium-paced modes every 3 and 40 ms, respectively. We also find that enHD binds nucleosomes and does so with enhanced affinity relative to naked DNA. Our results demonstrate that pioneer-like transcription factors can in principle do both, target nucleosomes and scan active DNA efficiently. The hybrid scanning mechanism used by enHD appears particularly well suited for the highly complex genomic signals of eukaryotic cells.
期刊介绍:
Nucleic Acids Research (NAR) is a scientific journal that publishes research on various aspects of nucleic acids and proteins involved in nucleic acid metabolism and interactions. It covers areas such as chemistry and synthetic biology, computational biology, gene regulation, chromatin and epigenetics, genome integrity, repair and replication, genomics, molecular biology, nucleic acid enzymes, RNA, and structural biology. The journal also includes a Survey and Summary section for brief reviews. Additionally, each year, the first issue is dedicated to biological databases, and an issue in July focuses on web-based software resources for the biological community. Nucleic Acids Research is indexed by several services including Abstracts on Hygiene and Communicable Diseases, Animal Breeding Abstracts, Agricultural Engineering Abstracts, Agbiotech News and Information, BIOSIS Previews, CAB Abstracts, and EMBASE.
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