Linking dosage compensation and X chromosome nuclear organization in<i>C. elegans</i>

Sharma, Rahul; Meister, Peter

doi:10.1080/19491034.2015.1059546

Cited by 6 publications

(8 citation statements)

References 56 publications

(75 reference statements)

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“…First, the nuclear positioning model predicts that in males the transgenes on X should have elevated expression relative to transgenes on autosomes due to a rex -dependent association of X with the nuclear periphery. However, we found that in males, expression of single-copy transgenes on the sole X chromosome was not different from expression of single-copy transgenes inserted on only one of two homologous autosomes ( Figure 6C ), contrary to the nuclear positioning model of dosage compensation ( Sharma et al, 2014 ; Sharma and Meister, 2015 ).…”

Section: Resultsmentioning

confidence: 75%

“…Our analysis of X-chromosome regulation enabled us to evaluate an attractive but speculative model of X-chromosome dosage compensation, which posits that repression of X-linked gene expression in XX animals by the DCC is merely the result of escaping from a chromosome-wide mechanism that upregulates X expression ( Sharma et al, 2014 ; Sharma and Meister, 2015 ). In particular, these authors proposed that rex sites target X to the nuclear periphery in males to increase chromosome-wide gene expression, while DCC binding to rex sites in hermaphrodites blocks the peripheral localization, relocating X to the interior and hence reducing X gene expression.…”

Section: Resultsmentioning

confidence: 99%

“…Finally, our analysis of X-chromosome regulation, combined with chromosome localization studies, allowed us to evaluate a recent, speculative model of X-chromosome dosage compensation, which proposes that rex sites target X chromosomes to the nuclear periphery in males to increase gene expression, while DCC binding to rex sites in hermaphrodites relocates X to the interior, thereby reducing gene expression to achieve dosage compensation ( Sharma et al, 2014 ; Sharma and Meister, 2015 ). Results presented here provide strong evidence against this model of dosage compensation.…”

Section: Introductionmentioning

confidence: 99%

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Chromosome-wide mechanisms to decouple gene expression from gene dose during sex-chromosome evolution

Wheeler

Anderson

Frøkjær-Jensen

et al. 2016

eLife

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Changes in chromosome number impair fitness by disrupting the balance of gene expression. Here we analyze mechanisms to compensate for changes in gene dose that accompanied the evolution of sex chromosomes from autosomes. Using single-copy transgenes integrated throughout the Caenorhabditis elegans genome, we show that expression of all X-linked transgenes is balanced between XX hermaphrodites and XO males. However, proximity of a dosage compensation complex (DCC) binding site (rex site) is neither necessary to repress X-linked transgenes nor sufficient to repress transgenes on autosomes. Thus, X is broadly permissive for dosage compensation, and the DCC acts via a chromosome-wide mechanism to balance transcription between sexes. In contrast, no analogous X-chromosome-wide mechanism balances transcription between X and autosomes: expression of compensated hermaphrodite X-linked transgenes is half that of autosomal transgenes. Furthermore, our results argue against an X-chromosome dosage compensation model contingent upon rex-directed positioning of X relative to the nuclear periphery.DOI: http://dx.doi.org/10.7554/eLife.17365.001

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Section: Resultsmentioning

confidence: 75%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Chromosome-wide mechanisms to decouple gene expression from gene dose during sex-chromosome evolution

Wheeler

Anderson

Frøkjær-Jensen

et al. 2016

eLife

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“…Factors involved in location of the active X, which is often located near the nuclear membrane in mammals, remain to be determined. In Drosophila and C. elegans , nuclear pore complexes associate with the active X chromosome, consistent with a specific nuclear location [125, 126]. …”

Section: Molecular Evidence Of X Upregulationmentioning

confidence: 99%

Dosage compensation of the sex chromosomes and autosomes

Distèche

2016

Seminars in Cell & Developmental Biology

109

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Males are XY and females are XX in most mammalian species. Other species such as birds have a different sex chromosome make-up: ZZ in males and ZW in females. In both types of organisms one of the sex chromosomes, Y or W, has degenerated due to lack of recombination with its respective homolog X or Z. Since autosomes are present in two copies in diploid organisms the heterogametic sex has become a natural "aneuploid" with haploinsufficiency for X- or Z-linked genes. Specific mechanisms have evolved to restore a balance between critical gene products throughout the genome and between males and females. Some of these mechanisms were co-opted from and/or added to compensatory processes that alleviate autosomal aneuploidy. Surprisingly, several modes of dosage compensation have evolved. In this review we will consider the evidence for dosage compensation and the molecular mechanisms implicated.

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“…In males, the X chromosome interacts with nucleoporins, creating an activating compartment able to increase X-linked genes expression. In hermaphrodites, DCC loading onto X chromatin on the one hand increases overall chromosome compaction and TAD structure while on the other hand it impairs activation at pores by masking the interaction sites and altering X chromosome position [53,59]. How these changes ultimately impact RNA polymerase levels on the X remains to be elucidated.…”

Section: Nematodes: Sex-specific Nuclear Compartments To Fine-tune Trmentioning

confidence: 99%

Dosage compensation and nuclear organization: cluster to control chromosome-wide gene expression

Sharma

Meister

2016

Current Opinion in Genetics & Development

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In many species, male and female animals differ in the number of X chromosomes they possess. As a consequence, large scale differences in gene dosage exist between sexes; a phenomenon that is rarely tolerated by the organism for changes in autosome dosage. Several strategies have evolved independently to balance X-linked gene dosage between sexes, named dosage compensation (DC). The molecular basis of DC differs among the three best-studied examples: mammals, fruit fly and nematodes. In this short review, we summarize recent microscopic and chromosome conformation capture data that reveal key features of the compensated X chromosome and highlight the events leading to the establishment of a functional, specialized nuclear compartment, the X domain.

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Linking dosage compensation and X chromosome nuclear organization inC. elegans

Cited by 6 publications

References 56 publications

Chromosome-wide mechanisms to decouple gene expression from gene dose during sex-chromosome evolution

Chromosome-wide mechanisms to decouple gene expression from gene dose during sex-chromosome evolution

Dosage compensation of the sex chromosomes and autosomes

Dosage compensation and nuclear organization: cluster to control chromosome-wide gene expression

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