Topoisomerase VI participates in an insulator-like function that prevents H3K9me2 spreading into euchromatic islands

Méteignier, Louis-Valentin; Lecampion, Cécile; Velay, Florent; Vriet, Cécile; Dimnet, Laura; Térèse, Michel; Rougée, Martin; Breuer, Christian; Soubigou‐Taconnat, Ludivine; Sugimoto, Keiko; Barneche, Frédy; Laloi, Christophe

doi:10.1101/829416

2019

DOI: 10.1101/829416

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Topoisomerase VI participates in an insulator-like function that prevents H3K9me2 spreading into euchromatic islands

Louis-Valentin Méteignier¹,

Cécile Lecampion²,

Florent Velay³

et al.

Abstract: The organization of the genome into transcriptionally active and inactive chromatin domains requires well-delineated chromatin boundaries and insulator functions in order to maintain the identity of adjacent genomic loci with antagonistic chromatin marks and functionality. In plants that lack known chromatin insulators, the mechanisms that prevent heterochromatin spreading into euchromatin remain to be identified. Here, we show that DNA Topoisomerase VI participates in a chromatin boundary function that safegu… Show more

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Greenscreen decreases Type I Errors and increases true peak detection in genomic datasets including ChIP-seq

Klasfeld

Wagner

2022

Preprint

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Chromatin immunoprecipitation followed by sequencing (ChIP-seq) is used widely to identify both factor binding to genomic DNA and chromatin modifications. Analysis of ChIP-seq data is impacted by regions of the genome which generate ultra-high artifactual signals. To remove these signals from ChIP-seq data, ENCODE developed blacklists, comprehensive sets of regions defined by low mappability and ultra-high signals for human, mouse, worm, and flies. Currently, blacklists are not available for many model and non-model species. Here we describe an alternative approach for removing false-positive peaks we called greenscreen. Greenscreen is facile to implement, requires few input samples, and uses analysis tools frequently employed for ChIP-seq. We show that greenscreen removes artifact signal as effectively as blacklists in Arabidopsis and human ChIP-seq datasets while covering less of the genome, dramatically improving ChIP-seq data quality. Greenscreen filtering reveals true factor binding overlap and of occupancy changes in different genetic backgrounds or tissues. Because it is effective with as few as three inputs, greenscreen is readily adaptable for use in any species or genome build. Although developed for ChIP-seq, greenscreen also identifies artifact signals from other genomic datasets including CUT&RUN. Finally, we present an improved ChIP-seq pipeline which incorporates greenscreen, that detects more true peaks than published methods.

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Greenscreen decreases Type I Errors and increases true peak detection in genomic datasets including ChIP-seq

Klasfeld

Wagner

2022

Preprint

View full text Add to dashboard Cite

show abstract

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Topoisomerase VI participates in an insulator-like function that prevents H3K9me2 spreading into euchromatic islands

Cited by 1 publication

References 110 publications

Greenscreen decreases Type I Errors and increases true peak detection in genomic datasets including ChIP-seq

Greenscreen decreases Type I Errors and increases true peak detection in genomic datasets including ChIP-seq

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