Deletion of an X-Inactivation Boundary Disrupts Adjacent Gene Silencing

Horvath, Lindsay M.; Li, Nan; Carrel, Laura

doi:10.1371/journal.pgen.1003952

Cited by 35 publications

(31 citation statements)

References 60 publications

(122 reference statements)

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“…Four different single-copy integrations showed escape from inactivation for Kdm5c while flanking genes were silenced, delimiting a 112 kb region containing such an intrinsic element [81]. Further analysis of deletions of additional BAC integrations also showed evidence for a distal boundary that when disrupted allowed spread of euchromatin (escape) into flanking genes [82]. CTCF has long been implicated as a boundary [72], and has clear roles in the structure of the inactive X (discussed above) as well as generally defining TADs; however, CTCF itself is too abundant on the X chromosome to be the sole delineator of escape genes, thus other factors must interact.…”

Section: (A) Role For An Intrinsic Element In Escape From Inactivationmentioning

confidence: 96%

When the Lyon(ized chromosome) roars: ongoing expression from an inactive X chromosome

Carrel

Brown

2017

Phil. Trans. R. Soc. B

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A tribute to Mary Lyon was held in October 2016. Many remarked about Lyon's foresight regarding many intricacies of the X-chromosome inactivation process. One such example is that a year after her original 1961 hypothesis she proposed that genes with Y homologues should escape from X inactivation to achieve dosage compensation between males and females. Fifty-five years later we have learned many details about these escapees that we attempt to summarize in this review, with a particular focus on recent findings. We now know that escapees are not rare, particularly on the human X, and that most lack functionally equivalent Y homologues, leading to their increasingly recognized role in sexually dimorphic traits. Newer sequencing technologies have expanded profiling of primary tissues that will better enable connections to sex-biased disorders as well as provide additional insights into the X-inactivation process. Chromosome organization, nuclear location and chromatin environments distinguish escapees from other X-inactivated genes. Nevertheless, several big questions remain, including what dictates their distinct epigenetic environment, the underlying basis of species differences in escapee regulation, how different classes of escapees are distinguished, and the roles that local sequences and chromosome ultrastructure play in escapee regulation.

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Section: (A) Role For An Intrinsic Element In Escape From Inactivationmentioning

confidence: 96%

When the Lyon(ized chromosome) roars: ongoing expression from an inactive X chromosome

Carrel

Brown

2017

Phil. Trans. R. Soc. B

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“…Chromatin conformation analyses show that these genes apparently adopt a specific chromatin configuration with different domains interacting with each other, which suggests that escape genes may occupy a specific nuclear compartment 71 . Domains of silencing may be protected by insulator elements from encroachment by escape domains 72,73 . Furthermore, lncRNAs (the genes of which are often located adjacent to protein-coding genes) may facilitate their escape 74,75 .…”

Section: Sex Bias In Gene Expressionmentioning

confidence: 99%

X chromosome regulation: diverse patterns in development, tissues and disease

et al. 2014

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Genes on the mammalian X chromosome are present in one copy in males and two copies in females. The complex mechanisms that regulate the X chromosome lead to evolutionary and physiological variability in gene expression between species, the sexes, individuals, developmental stages, tissues and cell types. In early development, delayed and incomplete X chromosome inactivation (XCI) in some species causes variability in gene expression. Additional diversity stems from escape from XCI and from mosaicism or XCI skewing in females. This causes sex-specific differences that manifest as differential gene expression and associated phenotypes. Furthermore, the complexity and diversity of X dosage regulation affect the severity of diseases caused by X-linked mutations.

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“…Loci lying upstream of Xist have been proposed to participate in its activation: the X-pairing region (Xpr), 58 Genome architecture and expression …”

Section: Introductionmentioning

confidence: 99%