Faculty Opinions recommendation of High-resolution ChIP-chip analysis reveals that the Drosophila MSL complex selectively identifies active genes on the male X chromosome.

ABSTRACT In Drosophila melanogaster, dosage compensation relies on the targeting of the male-specific lethal (MSL) complex to hundreds of sites along the male X chromosome. Transcription-coupled methylation of histone H3 lysine 36 is enriched toward the 3′ end of active genes, similar to the MSL proteins. Here, we have studied the link between histone H3 methylation and MSL complex targeting using RNA interference and chromatin immunoprecipitation. We show that trimethylation of histone H3 at lysine 36 (H3K36me3) relies on the histone methyltransferase Hypb and is localized promoter distal at dosage-compensated genes, similar to active genes on autosomes. However, H3K36me3 has an X-specific function, as reduction specifically decreases acetylation of histone H4 lysine 16 on the male X chromosome. This hypoacetylation is caused by compromised MSL binding and results in a failure to increase expression twofold. Thus, H3K36me3 marks the body of all active genes yet is utilized in a chromosome-specific manner to enhance histone acetylation at sites of dosage compensation.

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Absence of X-chromosome dosage compensation in the primordial germ cells of Drosophila embryos

Scientific Reports ◽

10.1038/s41598-021-84402-7 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Ryoma Ota ◽

Makoto Hayashi ◽

Shumpei Morita ◽

Hiroki Miura ◽

Satoru Kobayashi

Keyword(s):

X Chromosome ◽

Germ Cells ◽

Dosage Compensation ◽

Sex Chromosome ◽

Primordial Germ Cells ◽

Histone H4 ◽

X Chromosomes ◽

Essential Components ◽

Msl Complex ◽

Male Specific

AbstractDosage compensation is a mechanism that equalizes sex chromosome gene expression between the sexes. In Drosophila, individuals with two X chromosomes (XX) become female, whereas males have one X chromosome (XY). In males, dosage compensation of the X chromosome in the soma is achieved by five proteins and two non-coding RNAs, which assemble into the male-specific lethal (MSL) complex to upregulate X-linked genes twofold. By contrast, it remains unclear whether dosage compensation occurs in the germline. To address this issue, we performed transcriptome analysis of male and female primordial germ cells (PGCs). We found that the expression levels of X-linked genes were approximately twofold higher in female PGCs than in male PGCs. Acetylation of lysine residue 16 on histone H4 (H4K16ac), which is catalyzed by the MSL complex, was undetectable in these cells. In male PGCs, hyperactivation of X-linked genes and H4K16ac were induced by overexpression of the essential components of the MSL complex, which were expressed at very low levels in PGCs. Together, these findings indicate that failure of MSL complex formation results in the absence of X-chromosome dosage compensation in male PGCs.

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A rapid method for sex identification in Cannabis sativa using High Resolution Melt (HRM) analysis.

Botany ◽

10.1139/cjb-2021-0168 ◽

2021 ◽

Author(s):

Erin Jacqueline Gilchrist ◽

Daniela Hegebarth ◽

Shumin Wang ◽

Teagen D. Quilichini ◽

Jason Sawler ◽

...

Keyword(s):

High Resolution ◽

Rapid Method ◽

X Chromosome ◽

Cannabis Sativa ◽

Sex Identification ◽

Male Plant ◽

High Resolution Melt ◽

Male And Female ◽

High Resolution Melt Analysis ◽

Plant Sex

We report the identification of two SNPs in Cannabis sativa that are associated with female and male plant sex phenotypes, and are located on the top arm of the X chromosome. High Resolution Melt analysis was used to develop and validate a novel, rapid method for sex identification in medical/recreational cannabis as well as in hemp. This method can distinguish between dioecious male (XY) and dioecious female (XX) cannabis plants with 100% accuracy, and can also be used to differentiate between male and female Humulus lupulus (hop) plants.

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macroH2A1 Histone Variants Are Depleted on Active Genes but Concentrated on the Inactive X Chromosome

Molecular and Cellular Biology ◽

10.1128/mcb.02258-05 ◽

2006 ◽

Vol 26 (12) ◽

pp. 4410-4420 ◽

Cited By ~ 39

Author(s):

Lakshmi N. Changolkar ◽

John R. Pehrson

Keyword(s):

X Chromosome ◽

Distribution Patterns ◽

Detailed Examination ◽

Histone Variants ◽

Heterochromatin Protein ◽

Inactive X Chromosome ◽

Preferential Localization ◽

Intergenic Regions ◽

Liver Chromatin ◽

Active Genes

ABSTRACT Using a novel thiol affinity chromatography approach to purify macroH2A1-containing chromatin fragments, we examined the distribution of macroH2A1 histone variants in mouse liver chromatin. We found that macroH2A1 was depleted on the transcribed regions of active genes. This depletion was observed on all of the 20 active genes that we probed, with only one site showing a small amount of enrichment. In contrast, macroH2A1 was concentrated on the inactive X chromosome, consistent with our previous immunofluorescence studies. This preferential localization was seen on genes that are active in liver, genes that are inactive in liver, and intergenic regions but was absent from four regions that escape X inactivation. These results support the hypothesis that macroH2As function as transcriptional repressors. Also consistent with this hypothesis is our finding that the heterochromatin protein HP1β copurifies with the macroH2A1-containing chromatin fragments. This study presents the first detailed examination of the distribution of macroH2A1 variants on specific sequences. Our results indicate that macroH2As have complex distribution patterns that are influenced by both local factors and long-range mechanisms.

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Parallel Universes for Models of X Chromosome Dosage Compensation in Drosophila: A Review

Cytogenetic and Genome Research ◽

10.1159/000445924 ◽

2016 ◽

Vol 148 (1) ◽

pp. 52-67 ◽

Cited By ~ 11

Author(s):

James A. Birchler

Keyword(s):

X Chromosome ◽

Dosage Compensation ◽

Sex Chromosome ◽

Fold Increase ◽

Molecular Data ◽

X Chromosomes ◽

Histone Modifiers ◽

Parallel Universes ◽

Msl Complex ◽

High Level

Dosage compensation in Drosophila involves an approximately 2-fold increase in expression of the single X chromosome in males compared to the per gene expression in females with 2 X chromosomes. Two models have been considered for an explanation. One proposes that the male-specific lethal (MSL) complex that is associated with the male X chromosome brings histone modifiers to the sex chromosome to increase its expression. The other proposes that the inverse effect which results from genomic imbalance would tend to upregulate the genome approximately 2-fold, but the MSL complex sequesters histone modifiers from the autosomes to the X to mute this autosomal male-biased expression. On the X, the MSL complex must override the high level of resulting histone modifications to prevent overcompensation of the X chromosome. Each model is evaluated in terms of fitting classical genetic and recent molecular data. Potential paths toward resolving the models are suggested.

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Drosophila Male-Specific Lethal 2 Protein Controls Sex-Specific Expression of the roX Genes

Genetics ◽

10.1093/genetics/166.4.1825 ◽

2004 ◽

Vol 166 (4) ◽

pp. 1825-1832 ◽

Cited By ~ 1

Author(s):

Barbara P Rattner ◽

Victoria H Meller

Keyword(s):

Gene Expression ◽

Transcriptional Regulation ◽

X Chromosome ◽

Specific Expression ◽

Linked Gene ◽

Male And Female ◽

Male Specific Lethal ◽

Msl Complex ◽

Male Specific ◽

Rox Rna

Abstract The MSL complex of Drosophila upregulates transcription of the male X chromosome, equalizing male and female X-linked gene expression. Five male-specific lethal proteins and at least one of the two noncoding roX RNAs are essential for this process. The roX RNAs are required for the localization of MSL complexes to the X chromosome. Although the mechanisms directing targeting remain speculative, the ratio of MSL protein to roX RNA influences localization of the complex. We examine the transcriptional regulation of the roX genes and show that MSL2 controls male-specific roX expression in the absence of any other MSL protein. We propose that this mechanism maintains a stable MSL/roX ratio that is favorable for localization of the complex to the X chromosome.

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