双胸复合体 iab-7 多梳抑制复合物反应元件在 Fab-7 染色质边界的功能中具有新的作用。

The bithorax complex iab-7 Polycomb response element has a novel role in the functioning of the Fab-7 chromatin boundary.

机构信息

Department of the Control of Genetic Processes, Institute of Gene Biology, Russian Academy of Sciences, Moscow, Russia.

Laboratory of Gene Expression Regulation in Development, Institute of Gene Biology, Russian Academy of Sciences, Moscow, Russia.

出版信息

PLoS Genet. 2018 Aug 15;14(8):e1007442. doi: 10.1371/journal.pgen.1007442. eCollection 2018 Aug.

DOI:10.1371/journal.pgen.1007442

PMID:30110328

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6110506/

Abstract

Expression of the three bithorax complex homeotic genes is orchestrated by nine parasegment-specific regulatory domains. Autonomy of each domain is conferred by boundary elements (insulators). Here, we have used an in situ replacement strategy to reanalyze the sequences required for the functioning of one of the best-characterized fly boundaries, Fab-7. It was initially identified by a deletion, Fab-71, that transformed parasegment (PS) 11 into a duplicate copy of PS12. Fab-71 deleted four nuclease hypersensitive sites, HS*, HS1, HS2, and HS3, located between the iab-6 and iab-7 regulatory domains. Transgenic and P-element excision experiments mapped the boundary to HS*+HS1+HS2, while HS3 was shown to be the iab-7 Polycomb response element (PRE). Recent replacement experiments showed that HS1 is both necessary and sufficient for boundary activity when HS3 is also present in the replacement construct. Surprisingly, while HS1+HS3 combination has full boundary activity, we discovered that HS1 alone has only minimal function. Moreover, when combined with HS3, only the distal half of HS1, dHS1, is needed. A ~1,000 kD multiprotein complex containing the GAF protein, called the LBC, binds to the dHS1 sequence and we show that mutations in dHS1, that disrupt LBC binding in nuclear extracts, eliminate boundary activity and GAF binding in vivo. HS3 has binding sites for GAF and Pho proteins that are required for PRE silencing. In contrast, HS3 boundary activity only requires the GAF binding sites. LBC binding with HS3 in nuclear extracts, and GAF association in vivo, depend upon the HS3 GAF sites, but not the Pho sites. Consistent with a role for the LBC in HS3 boundary activity, the boundary function of the dHS1+HS3mPho combination is lost when the flies are heterozygous for a mutation in the GAF gene. Taken together, these results reveal a novel function for the iab-7 PREs in chromosome architecture.

摘要

三个同源异型盒复合体基因的表达由九个副节特异性调控域协调。每个域的自主性由边界元件（绝缘子）赋予。在这里，我们使用原位替换策略重新分析了功能最好的一个 fly 边界 Fab-7 所需的序列。它最初是通过一个缺失突变 Fab-71 鉴定的，该突变将副节 (PS) 11 转化为 PS12 的重复副本。Fab-71 缺失了四个核酶超敏位点 HS*、HS1、HS2 和 HS3，它们位于 iab-6 和 iab-7 调控域之间。转基因和 P 元件缺失实验将边界定位到 HS*+HS1+HS2，而 HS3 被证明是 iab-7 Polycomb 反应元件 (PRE)。最近的替换实验表明，当 HS3 也存在于替换构建体中时，HS1 既是必需的，也是充分的边界活性。令人惊讶的是，虽然 HS1+HS3 组合具有完整的边界活性，但我们发现 HS1 本身只有最小的功能。此外，当与 HS3 结合时，只有 HS1 的远端一半，dHS1，是必需的。一种含有 GAF 蛋白的~1000kD 多蛋白复合物，称为 LBC，与 dHS1 序列结合，我们表明，dHS1 中的突变，破坏了核提取物中 LBC 的结合，消除了边界活性和体内 GAF 的结合。HS3 具有 GAF 和 Pho 蛋白的结合位点，这些位点对于 PRE 沉默是必需的。相比之下，HS3 的边界活性只需要 GAF 结合位点。在核提取物中，HS3 与 LBC 的结合以及体内 GAF 的结合，都依赖于 HS3 的 GAF 位点，而不依赖于 Pho 位点。与 LBC 在 HS3 边界活性中的作用一致，当果蝇杂合于 GAF 基因的突变时，dHS1+HS3mPho 组合的边界功能丧失。总之，这些结果揭示了 iab-7 PREs 在染色体结构中的一个新功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a6c0/6110506/8c7e65ba59e3/pgen.1007442.g001.jpg

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双胸复合体 iab-7 多梳抑制复合物反应元件在 Fab-7 染色质边界的功能中具有新的作用。

The bithorax complex iab-7 Polycomb response element has a novel role in the functioning of the Fab-7 chromatin boundary.

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