Tsuchiya Karen D, Greally John M, Yi Yajun, Noel Kevin P, Truong Jean-Pierre, Disteche Christine M
Division of Genetic Medicine, Department of Medicine, Vanderbilt University Medical Center, Nashville, Tennessee 37232, USA.
Genome Res. 2004 Jul;14(7):1275-84. doi: 10.1101/gr.2575904. Epub 2004 Jun 14.
We have performed X-inactivation and sequence analyses on 350 kb of sequence from human Xp11.2, a region shown previously to contain a cluster of genes that escape X inactivation, and we compared this region with the region of conserved synteny in mouse. We identified several new transcripts from this region in human and in mouse, which defined the full extent of the domain escaping X inactivation in both species. In human, escape from X inactivation involves an uninterrupted 235-kb domain of multiple genes. Despite highly conserved gene content and order between the two species, Smcx is the only mouse gene from the conserved segment that escapes inactivation. As repetitive sequences are believed to facilitate spreading of X inactivation along the chromosome, we compared the repetitive sequence composition of this region between the two species. We found that long terminal repeats (LTRs) were decreased in the human domain of escape, but not in the majority of the conserved mouse region adjacent to Smcx in which genes were subject to X inactivation, suggesting that these repeats might be excluded from escape domains to prevent spreading of silencing. Our findings indicate that genomic context, as well as gene-specific regulatory elements, interact to determine expression of a gene from the inactive X-chromosome.
我们对来自人类Xp11.2的350 kb序列进行了X染色体失活和序列分析,该区域先前显示包含一组逃避X染色体失活的基因簇,并且我们将该区域与小鼠中保守同线区域进行了比较。我们在人类和小鼠中鉴定了该区域的几个新转录本,它们确定了两个物种中逃避X染色体失活的结构域的完整范围。在人类中,逃避X染色体失活涉及一个由多个基因组成的连续235 kb结构域。尽管两个物种之间的基因含量和顺序高度保守,但Smcx是保守片段中唯一逃避失活的小鼠基因。由于重复序列被认为有助于X染色体失活沿染色体扩散,我们比较了两个物种该区域的重复序列组成。我们发现长末端重复序列(LTRs)在人类逃避区域减少,但在与Smcx相邻的大多数保守小鼠区域中没有减少,在这些区域中基因会发生X染色体失活,这表明这些重复序列可能被排除在逃避结构域之外以防止沉默扩散。我们的研究结果表明,基因组背景以及基因特异性调控元件相互作用,以决定来自失活X染色体的基因的表达。