Moore T, Constancia M, Zubair M, Bailleul B, Feil R, Sasaki H, Reik W
Department of Development and Genetics, The Babraham Institute, Cambridge CB2 4AT, United Kingdom.
Proc Natl Acad Sci U S A. 1997 Nov 11;94(23):12509-14. doi: 10.1073/pnas.94.23.12509.
The mouse insulin-like growth factor 2 (Igf2) locus is a complex genomic region that produces multiple transcripts from alternative promoters. Expression at this locus is regulated by parental imprinting. However, despite the existence of putative imprinting control elements in the Igf2 upstream region, imprinted transcriptional repression is abolished by null mutations at the linked H19 locus. To clarify the extent to which the Igf2 upstream region contains autonomous imprinting control elements we have performed functional and comparative analyses of the region in the mouse and human. Here we report the existence of multiple, overlapping imprinted (maternally repressed) sense and antisense transcripts that are associated with a tandem repeat in the mouse Igf2 upstream region. Regions flanking the repeat exhibit tissue-specific parental allelic methylation patterns, suggesting the existence of tissue-specific control elements in the upstream region. Studies in H19 null mice indicate that both parental allelic methylation and monoallelic expression of the upstream transcripts depends on an intact H19 gene acting in cis. The homologous region in human IGF2 is structurally conserved, with the significant exception that it does not contain a tandem repeat. Our results support the proposal that tandem repeats act to target methylation to imprinted genetic loci.
小鼠胰岛素样生长因子2(Igf2)基因座是一个复杂的基因组区域,可从可变启动子产生多种转录本。该基因座的表达受亲本印记调控。然而,尽管Igf2上游区域存在假定的印记控制元件,但连锁的H19基因座的无效突变会消除印记转录抑制。为了阐明Igf2上游区域包含自主印记控制元件的程度,我们对小鼠和人类的该区域进行了功能和比较分析。在此,我们报告在小鼠Igf2上游区域存在多个重叠的印记(母源抑制)正义和反义转录本,它们与一个串联重复序列相关。重复序列两侧的区域表现出组织特异性的亲本等位基因甲基化模式,表明上游区域存在组织特异性控制元件。对H19基因敲除小鼠的研究表明,上游转录本的亲本等位基因甲基化和单等位基因表达均依赖于顺式作用的完整H19基因。人类IGF2中的同源区域在结构上是保守的,但重要的例外是它不包含串联重复序列。我们的结果支持串联重复序列将甲基化靶向印记基因座的提议。