SpDamID：标记由蛋白质复合物结合的DNA可鉴定Notch二聚体反应性增强子。

SpDamID: Marking DNA Bound by Protein Complexes Identifies Notch-Dimer Responsive Enhancers.

作者信息

Hass Matthew R, Liow Hien-Haw, Chen Xiaoting, Sharma Ankur, Inoue Yukiko U, Inoue Takayoshi, Reeb Ashley, Martens Andrew, Fulbright Mary, Raju Saravanan, Stevens Michael, Boyle Scott, Park Joo-Seop, Weirauch Matthew T, Brent Michael R, Kopan Raphael

机构信息

Division of Developmental Biology, Children's Hospital Medical Center, Cincinnati, OH 45229, USA.

Center for Genome Sciences and Systems Biology, Washington University, Saint Louis, MO 63108, USA.

出版信息

Mol Cell. 2015 Aug 20;59(4):685-97. doi: 10.1016/j.molcel.2015.07.008. Epub 2015 Aug 6.

DOI:10.1016/j.molcel.2015.07.008

PMID:26257285

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4553207/

Abstract

We developed Split DamID (SpDamID), a protein complementation version of DamID, to mark genomic DNA bound in vivo by interacting or juxtapositioned transcription factors. Inactive halves of DAM (DNA adenine methyltransferase) were fused to protein pairs to be queried. Either direct interaction between proteins or proximity enabled DAM reconstitution and methylation of adenine in GATC. Inducible SpDamID was used to analyze Notch-mediated transcriptional activation. We demonstrate that Notch complexes label RBP sites broadly across the genome and show that a subset of these complexes that recruit MAML and p300 undergo changes in chromatin accessibility in response to Notch signaling. SpDamID differentiates between monomeric and dimeric binding, thereby allowing for identification of half-site motifs used by Notch dimers. Motif enrichment of Notch enhancers coupled with SpDamID reveals co-targeting of regulatory sequences by Notch and Runx1. SpDamID represents a sensitive and powerful tool that enables dynamic analysis of combinatorial protein-DNA transactions at a genome-wide level.

摘要

我们开发了Split DamID（SpDamID），它是DamID的一种蛋白质互补版本，用于标记体内通过相互作用或并列的转录因子结合的基因组DNA。将失活的DAM（DNA腺嘌呤甲基转移酶）半体与要检测的蛋白质对融合。蛋白质之间的直接相互作用或接近度均可实现DAM的重组以及GATC中腺嘌呤的甲基化。可诱导的SpDamID用于分析Notch介导的转录激活。我们证明，Notch复合物在全基因组范围内广泛标记RBP位点，并表明这些招募MAML和p300的复合物亚群会响应Notch信号而发生染色质可及性变化。SpDamID可区分单体结合和二聚体结合，从而能够识别Notch二聚体使用的半位点基序。结合SpDamID的Notch增强子的基序富集揭示了Notch和Runx1对调控序列的共同靶向作用。SpDamID是一种灵敏且强大的工具，能够在全基因组水平上动态分析组合性蛋白质-DNA相互作用。

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SpDamID: Marking DNA Bound by Protein Complexes Identifies Notch-Dimer Responsive Enhancers.SpDamID：标记由蛋白质复合物结合的DNA可鉴定Notch二聚体反应性增强子。

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本文引用的文献

Control of cell identity genes occurs in insulated neighborhoods in mammalian chromosomes.细胞身份基因的调控发生在哺乳动物染色体的绝缘区域。

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NOTCH1-RBPJ complexes drive target gene expression through dynamic interactions with superenhancers.NOTCH1-RBPJ 复合物通过与超级增强子的动态相互作用驱动靶基因表达。

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