Karyotype engineering reveals spatio-temporal control of replication firing and gene contacts - MNHN - Muséum national d'Histoire naturelle
Article Dans Une Revue Cell Genomics Année : 2022

Karyotype engineering reveals spatio-temporal control of replication firing and gene contacts

Résumé

Eukaryotic genomes vary in terms of size, chromosome number, and genetic complexity. Their temporal organization is complex, reflecting coordination between DNA folding and function. Here, we used fused karyotypes of budding yeast to characterize the effects of chromosome length on nuclear architecture. We found that size-matched megachromosomes expand to occupy a larger fraction of the enlarged nucleus. Hi-C maps reveal changes in the three-dimensional structure corresponding to inactivated centromeres and telomeres. De-clustering of inactive centromeres results in their loss of early replication, highlighting a functional correlation between genome organization and replication timing. Repositioning of former telomere-proximal regions on chromosome arms exposed a subset of contacts between flocculin genes. Chromatin reorganization of megachromosomes during cell division remained unperturbed, and it revealed that centromere-rDNA contacts in anaphase, extending over 0.3 Mb on wild-type chromosome, cannot exceed ∼1.7 Mb. Our results highlight the relevance of engineered karyotypes to unveiling relationships between genome organization and function
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hal-03930009 , version 1 (09-01-2023)

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Luciana Lazar-Stefanita, Jingchuan Luo, Remi Montagne, Agnes Thierry, Xiaoji Sun, et al.. Karyotype engineering reveals spatio-temporal control of replication firing and gene contacts. Cell Genomics, 2022, 2 (8), pp.100163. ⟨10.1016/j.xgen.2022.100163⟩. ⟨hal-03930009⟩
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