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The DNA-encoded nucleosome organization of a eukaryotic genome

2008· article· en· 1,237 citations· W2154109129 on OpenAlex· 10.1038/nature07667

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Opus teacher head0.003
GPT teacher head0.189
Teacher spread
0.186 · how far apart the two teachers sit on this one work
Validation status
score_only:v0-immature-baseline · verbatim from the scoring run: score_only means the number may rank works, and no category label ships from it

Abstract

The nucleosomes are the basic repeating units of eukaryotic chromatin, and nucleosome organization is critically important for gene regulation. Kaplan et al. tested the importance of the intrinsic DNA sequence preferences of nucleosomes by measuring the genome-wide occupancy of nucleosomes assembled on purified yeast genomic DNA. The resulting map is remarkably similar to in vivo nucleosome maps, indicating that the organization of nucleosomes in vivo is largely governed by the underlying genomic DNA sequence. This study tests the importance of the intrinsic DNA sequence preferences of nucleosomes by measuring the genome-wide occupancy of nucleosomes assembled on purified yeast genomic DNA. The resulting map is similar to in vivo nucleosome maps, indicating that the organization of nucleosomes in vivo is largely governed by the underlying genomic DNA sequence. Nucleosome organization is critical for gene regulation1. In living cells this organization is determined by multiple factors, including the action of chromatin remodellers2, competition with site-specific DNA-binding proteins3, and the DNA sequence preferences of the nucleosomes themselves4,5,6,7,8. However, it has been difficult to estimate the relative importance of each of these mechanisms in vivo7,9,10,11, because in vivo nucleosome maps reflect the combined action of all influencing factors. Here we determine the importance of nucleosome DNA sequence preferences experimentally by measuring the genome-wide occupancy of nucleosomes assembled on purified yeast genomic DNA. The resulting map, in which nucleosome occupancy is governed only by the intrinsic sequence preferences of nucleosomes, is similar to in vivo nucleosome maps generated in three different growth conditions. In vitro, nucleosome depletion is evident at many transcription factor binding sites and around gene start and end sites, indicating that nucleosome depletion at these sites in vivo is partly encoded in the genome. We confirm these results with a micrococcal nuclease-independent experiment that measures the relative affinity of nucleosomes for ∼40,000 double-stranded 150-base-pair oligonucleotides. Using our in vitro data, we devise a computational model of nucleosome sequence preferences that is significantly correlated with in vivo nucleosome occupancy in Caenorhabditis elegans. Our results indicate that the intrinsic DNA sequence preferences of nucleosomes have a central role in determining the organization of nucleosomes in vivo.

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The record

Venue
Nature
Topic
Genomics and Chromatin Dynamics
Field
Biochemistry, Genetics and Molecular Biology
Canadian institutions
University of Toronto
Funders
National Institute of General Medical SciencesNational Institutes of HealthNational Cancer InstituteCanadian Institutes of Health ResearchNatural Sciences and Engineering Research Council of CanadaNorthwestern University
Keywords
NucleosomeBiologyLinker DNAMicrococcal nucleaseChromatinGeneticsHistoneDNAGenomeSWI/SNFCell biologyComputational biologyGene
Has abstract in OpenAlex
yes