Keohane A M, Barlow A L, Waters J, Bourn D, Turner B M
Chromatin and Gene Expression Group, University of Birmingham Medical School, Edgbaston, Birmingham B15 2TT, UK.
Hum Mol Genet. 1999 Feb;8(2):377-83. doi: 10.1093/hmg/8.2.377.
The inactive X (Xi) differs from its active homologue (Xa) in a number of ways, including increased methylation of CpG islands, replication late in S phase, underacetylation of histone H4 and association with XIST RNA. Global changes in DNA methylation occur relatively late in development, but the other properties all change during or shortly after the establishment of Xi and may play a role in the mechanism by which an inactive chromatin conformation spreads across most of the chromosome. In the present report, we use two human X;autosome translocation chromosomes to study the spreading of inactive X chromatin across X;autosome boundaries. In one of these chromosomes, t(X;6), Xp distal to p11.2 is replaced by 6p21.1-6pter and, in the other, ins(X;16), a small fragment derived from 16p13 is inserted into the distal third of Xq. In lymphoid cells from patients carrying these translocations in an unbalanced form, Xi was shown by HUMARA assay to be derived exclusively [t(X:6)] or predominantly [ins (X;16)] from the derived X chromosome. We used a combination of immunolabelling and RNA/DNA fluorescence in situ hybridization to define the distribution of XIST RNA, deacetylated H4 and late-replicating DNA across the two derived X chromosomes in inactive form. Within the limits of the cytogenetic techniques employed, the results show complete coincidence of these three parameters, with all three being excluded from the autosomal component of the derived X chromosome.
失活的X染色体(Xi)在许多方面与其活性同源染色体(Xa)不同,包括CpG岛甲基化增加、S期晚期复制、组蛋白H4低乙酰化以及与XIST RNA结合。DNA甲基化的整体变化在发育过程中相对较晚发生,但其他特性在Xi建立期间或之后不久都会发生变化,并且可能在失活染色质构象在大部分染色体上扩散的机制中发挥作用。在本报告中,我们使用两条人类X;常染色体易位染色体来研究失活的X染色质跨越X;常染色体边界的扩散情况。在其中一条染色体t(X;6)中,p11.2远端的Xp被6p21.1 - 6pter取代,而在另一条染色体ins(X;16)中,一个源自16p13的小片段插入到Xq的远端三分之一处。在以不平衡形式携带这些易位的患者的淋巴细胞中,通过HUMARA分析表明Xi完全[t(X:6)]或主要[ins(X;16)]源自衍生的X染色体。我们结合免疫标记和RNA/DNA荧光原位杂交来确定失活形式的两条衍生X染色体上XIST RNA、去乙酰化H4和晚期复制DNA的分布。在所采用的细胞遗传学技术范围内,结果显示这三个参数完全一致,并且这三个参数都被排除在衍生X染色体的常染色体成分之外。