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Dosage compensation

About: Dosage compensation is a research topic. Over the lifetime, 1920 publications have been published within this topic receiving 124589 citations.


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Journal ArticleDOI
TL;DR: In this article, a discussion of the normalization procedures for studying gene expression in aneuploid genotypes is presented concerning gene expression and the modulations of gene expression, which can provide insight into the nature of cancerous cells.
Abstract: Aneuploidy involves changes in chromosomal copy number compared with normal euploid genotypes. Studies of gene expression in aneuploids in a variety of species have claimed many different types of responses. Studies of individual genes suggest that there are both structural gene dosage effects and compensation in aneuploids, and that subtle trans-acting effects across the genome are quite prevalent. A discussion is presented concerning the normalization procedures for studying gene expression in aneuploids. A careful documentation of the modulations of gene expression in aneuploids should provide insight into the nature of cancerous cells and the basis of aneuploid syndromes.

45 citations

Journal ArticleDOI
01 Oct 1998-Genetics
TL;DR: It is shown that overexpressing both MSL1 and MSL2 in females results in 100% female-specific lethality, and two levels of negative regulation of msl1 in females are identified, which are at the level of protein stability and protein synthesis.
Abstract: Dosage compensation in Drosophila is the mechanism by which X-linked gene expression is made equal in males and females. Proper regulation of this process is critical to the survival of both sexes. Males must turn the male-specific lethal (msl)-mediated pathway of dosage compensation on and females must keep it off. The msl2 gene is the primary target of negative regulation in females. Preventing production of MSL2 protein is sufficient to prevent dosage compensation; however, ectopic expression of MSL2 protein in females is not sufficient to induce an insurmountable level of dosage compensation, suggesting that an additional component is limiting in females. A candidate for this limiting factor is MSL1, because the amount of MSL1 protein in females is reduced compared to males. We have identified two levels of negative regulation of msl1 in females. The predominant regulation is at the level of protein stability, while a second regulatory mechanism functions at the level of protein synthesis. Overcoming these control mechanisms by overexpressing both MSL1 and MSL2 in females results in 100% female-specific lethality.

44 citations

Journal ArticleDOI
TL;DR: A large autosomal region (23 map units) in Caenorhabditis elegans is genetically analysed and Lethal mutations covered by sDp30 were not suppressed uniformly in hermaphrodites and may be related to the mechanism of X chromosome dosage compensation in C. elegans.
Abstract: In this study we genetically analyse a large autosomal region (23 map units) in Caenorhabditis elegans. The region comprises the left half of linkage group V [LGV(left)] and is recombinationally balanced by the translocation eT1(III; V). We have used rearrangement breakpoints to subdivide the region from the left end of LGV to daf-11 into a set of 23 major zones. Twenty of these zones are balanced by eT1. To establish the zones we examined a total of 110 recessive lethal mutations derived from a variety of screening protocols. The mutations identified 12 deficiencies, 1 duplication, as well as 98 mutations that fell into 59 complementation groups, significantly increasing the number of available genetic sites on LGV. Twenty-six of the latter had more than 1 mutant allele. Significant differences were observed among the alleles of only 6 genes, 3 of which have at least one ‘visible’ allele. Several deficiencies and 3 alleles of let-336 were demonstrated to affect recombination. The duplication identified in this study is sDp30(V;X). Lethal mutations covered by sDp30 were not suppressed uniformly in hermaphrodites. The basis for this non-uniformity may be related to the mechanism of X chromosome dosage compensation in C. elegans.

44 citations

Journal ArticleDOI
TL;DR: The analysis of Z chromosome evolution and gene expression across 12 paleognaths shows that paleognath Z chromosomes are atypical at the genomic level, but the evolutionary forces maintaining largely homomorphic sex chromosomes in these species remain elusive.
Abstract: Standard models of sex chromosome evolution propose that recombination suppression leads to the degeneration of the heterogametic chromosome, as is seen for the Y chromosome in mammals and the W chromosome in most birds. Unlike other birds, paleognaths (ratites and tinamous) possess large nondegenerate regions on their sex chromosomes (PARs or pseudoautosomal regions). It remains unclear why these large PARs are retained over >100 Myr, and how this retention impacts the evolution of sex chromosomes within this system. To address this puzzle, we analyzed Z chromosome evolution and gene expression across 12 paleognaths, several of whose genomes have recently been sequenced. We confirm at the genomic level that most paleognaths retain large PARs. As in other birds, we find that all paleognaths have incomplete dosage compensation on the regions of the Z chromosome homologous to degenerated portions of the W (differentiated regions), but we find no evidence for enrichments of male-biased genes in PARs. We find limited evidence for increased evolutionary rates (faster-Z) either across the chromosome or in differentiated regions for most paleognaths with large PARs, but do recover signals of faster-Z evolution in tinamou species with mostly degenerated W chromosomes, similar to the pattern seen in neognaths. Unexpectedly, in some species, PAR-linked genes evolve faster on average than genes on autosomes, suggested by diverse genomic features to be due to reduced efficacy of selection in paleognath PARs. Our analysis shows that paleognath Z chromosomes are atypical at the genomic level, but the evolutionary forces maintaining largely homomorphic sex chromosomes in these species remain elusive.

44 citations

Journal ArticleDOI
TL;DR: A model accounting for early events related to XCI, including observations in uniparental and aneuploid embryos, is presented.

44 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
202330
202272
202183
202051
201980
201870