Jocelyn D Weissman, Aparna Kotekar, Zohar Barbash, Jie Mu, Dinah S Singer
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Transgenic mice with a mutated CCAAT box in the MHC class I transgene display variegated expression of the transgene among littermates and progeny in multiple independently derived transgenic lines. After 4 generations, CCAAT mutant transgenic lines derived from a single founder stably displayed distinct patterns of expression. Histone modifications and RNA polymerase II binding correlate with expression of CCAAT mutant transgenic lines, whereas DNA methylation and nucleosome occupancy do not. Mutation of the CCAAT box also results in changes to CTCF binding and DNA looping patterns across the transgene that correlate with expression status. These studies identify the CCAAT promoter element as a regulator of stable transgenerational gene expression such that mutation of the CCAAT box results in variegated transgenerational inheritance. 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引用次数: 0
摘要
基因的跨代表达取决于基本的 DNA 序列和表观遗传修饰。后者可在不改变 DNA 的情况下导致不同基因表达模式的多代传递,被称为表观遗传,已在植物、蠕虫、苍蝇和哺乳动物中得到证实。转录因子与同源 DNA 序列元件结合可调控基因表达,而表观遗传的分子基础则与组蛋白和 DNA 修饰以及非编码 RNA 有关。我们在此报告,CCAAT 盒启动子元件的突变会削弱 NF-Y 的结合,并破坏 MHC I 类转基因的稳定转代表达。MHC I类转基因中CCAAT盒突变的转基因小鼠在多个独立衍生的转基因品系中的同窝小鼠和后代中表现出不同的转基因表达。经过 4 代后,由一个创始人产生的 CCAAT 突变转基因品系稳定地显示出不同的表达模式。组蛋白修饰和 RNA 聚合酶 II 结合与 CCAAT 突变转基因品系的表达相关,而 DNA 甲基化和核小体占据则不相关。CCAAT 框的突变还导致整个转基因的 CTCF 结合和 DNA 循环模式发生变化,这些变化与表达状态相关。这些研究确定了 CCAAT 启动子元件是稳定转基因表达的调节器,因此 CCAAT 盒突变会导致不同的转基因遗传。考虑到 CCAAT 框存在于 30% 的真核生物启动子中,这项研究为了解基因表达模式的保真度如何通过多代维持提供了见解。
CCAAT Promoter element regulates transgenerational expression of the MHC class I gene.
Transgenerational gene expression depends on both underlying DNA sequences and epigenetic modifications. The latter, which can result in transmission of variegated gene expression patterns across multiple generations without DNA alterations, has been termed epigenetic inheritance and has been documented in plants, worms, flies and mammals. Whereas transcription factors binding to cognate DNA sequence elements regulate gene expression, the molecular basis for epigenetic inheritance has been linked to histone and DNA modifications and non-coding RNA. Here we report that mutation of the CCAAT box promoter element abrogates NF-Y binding and disrupts the stable transgenerational expression of an MHC class I transgene. Transgenic mice with a mutated CCAAT box in the MHC class I transgene display variegated expression of the transgene among littermates and progeny in multiple independently derived transgenic lines. After 4 generations, CCAAT mutant transgenic lines derived from a single founder stably displayed distinct patterns of expression. Histone modifications and RNA polymerase II binding correlate with expression of CCAAT mutant transgenic lines, whereas DNA methylation and nucleosome occupancy do not. Mutation of the CCAAT box also results in changes to CTCF binding and DNA looping patterns across the transgene that correlate with expression status. These studies identify the CCAAT promoter element as a regulator of stable transgenerational gene expression such that mutation of the CCAAT box results in variegated transgenerational inheritance. Considering that the CCAAT box is present in 30% of eukaryotic promoters, this study provides insights into how fidelity of gene expression patterns is maintained through multiple generations.
期刊介绍:
Chromosoma publishes research and review articles on the functional organization of the eukaryotic cell nucleus, with a particular emphasis on the structure and dynamics of chromatin and chromosomes; the expression and replication of genomes; genome organization and evolution; the segregation of genomes during meiosis and mitosis; the function and dynamics of subnuclear compartments; the nuclear envelope and nucleocytoplasmic interactions, and more.
The scope of Chromosoma encompasses genetic, biophysical, molecular and cell biological studies.
Average time from receipt of contributions to first decision: 22 days
Publishes research and review articles on the functional organization of the eukaryotic cell nucleus
Topics include structure and dynamics of chromatin and chromosomes; the expression and replication of genomes; genome organization and evolution; the segregation of genomes during meiosis and mitosis and more
Encompasses genetic, biophysical, molecular and cell biological studies.