Gamete–specific methylation correlates with imprinting of the murine Xist gene
- 1 March 1995
- journal article
- Published by Springer Nature in Nature Genetics
- Vol. 9 (3), 312-315
- https://doi.org/10.1038/ng0395-312
Abstract
We have investigated the potential role of DNA methylation as a regulator of imprinted Xist expression in mouse preimplantation embryos. The active paternal allele was found to be unmodified in sperm at CpG loci near the 5' end of the gene transcription unit. In contrast, on the inactive maternal allele, these same sites are initially methylated in the oocyte and then remain modified in the early embryo. In the male germ line, these methyl moieties are removed during spermatogenesis, and this occurs before the programmed reactivation of Xist in the testis. This represents a clear-cut example of a potential methylation imprinting signal that is reprogrammable and gamete derived.This publication has 23 references indexed in Scilit:
- Developmental changes in methylation of spermatogenesis–specific genes include reprogramming in the epididymisNature Genetics, 1994
- Evidence that random and imprinted Xist expression is controlled by preemptive methylationCell, 1994
- Role for DNA methylation in genomic imprintingNature, 1993
- Expression of Xist during mouse development suggests a role in the initiation of X chromosome inactivationCell, 1993
- Expression of Xist in mouse germ cells correlates with X–chromosome inactivationNature Genetics, 1992
- Expression of the X–inactivation–associated gene XIST during spermatogenesisNature Genetics, 1992
- X inactivation in mammalian testis is correlated with inactive X–specific transcriptionNature Genetics, 1992
- X-chromosome inactivation and cell memoryTrends in Genetics, 1992
- Parental-specific methylation of an imprinted transgene is established during gametogenesis and progressively changes during embryogenesisCell, 1991
- A gene from the region of the human X inactivation centre is expressed exclusively from the inactive X chromosomeNature, 1991