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果蝇毛翅DNA结合蛋白的抑制因子对增强子的非距离依赖性失活

Distance-independent inactivation of an enhancer by the suppressor of Hairy-wing DNA-binding protein of Drosophila.

作者信息

Dorsett D

机构信息

Program in Molecular Biology, Sloan-Kettering Institute for Cancer Research, Memorial Sloan-Kettering Cancer Center, New York New York.

出版信息

Genetics. 1993 Aug;134(4):1135-44. doi: 10.1093/genetics/134.4.1135.

DOI:10.1093/genetics/134.4.1135
PMID:8375652
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1205581/
Abstract

When the gypsy retrotransposon of Drosophila inserts between an enhancer and promoter it prevents the enhancer from activating transcription. Enhancers are blocked because the protein (SUHW) encoded by the suppressor of Hairy-wing [su(Hw)] gene binds to gypsy. For example, gypsy insertions in an 85 kilobase region between a wing margin-specific enhancer and the promoter in the cut gene cause a cut wing phenotype that is suppressed by su(Hw) mutations. A temperature-sensitive combination of mutant su(Hw) alleles was used to investigate the mechanism by which SUHW blocks the cut wing margin enhancer. By shifting from the nonpermissive to the permissive temperature and vice versa at various stages in development it was found that active SUHW is only required around pupariation when the wing margin enhancer is active to cause a cut wing phenotype. This was true whether gypsy was in the embryonic control region near the promoter, or in the late larval control region near the wing margin enhancer. These results indicate that SUHW must be active only when an enhancer is active to block the enhancer. Furthermore, the observations also indicate that enhancer-blocking by SUHW is reversible and that it occurs soon after binding of active SUHW to gypsy DNA. These results are consistent with models in which SUHW structurally interferes with enhancer-promoter interactions.

摘要

当果蝇的吉普赛逆转座子插入增强子和启动子之间时,它会阻止增强子激活转录。增强子被阻断是因为毛翅抑制基因[su(Hw)]编码的蛋白质(SUHW)与吉普赛结合。例如,吉普赛插入切割基因中翅缘特异性增强子和启动子之间的85千碱基区域会导致切割翅表型,而这种表型会被su(Hw)突变所抑制。利用温度敏感的突变su(Hw)等位基因组合来研究SUHW阻断切割翅缘增强子的机制。通过在发育的不同阶段从非允许温度转变为允许温度,反之亦然,发现只有在化蛹期左右,当翅缘增强子活跃以导致切割翅表型时,才需要活性SUHW。无论吉普赛是在启动子附近的胚胎控制区域,还是在翅缘增强子附近的晚期幼虫控制区域,都是如此。这些结果表明,SUHW必须仅在增强子活跃时才活跃以阻断增强子。此外,这些观察结果还表明,SUHW对增强子的阻断是可逆的,并且它在活性SUHW与吉普赛DNA结合后不久就会发生。这些结果与SUHW在结构上干扰增强子 - 启动子相互作用的模型一致。

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