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Regulated Capture of Vκ Gene Topologically Associating Domains by Transcription Factories.

Cell reports (2018-08-30)
Sophiya Karki, Domenick E Kennedy, Kaitlin Mclean, Adrian T Grzybowski, Mark Maienschein-Cline, Shiladitya Banerjee, Heping Xu, Elizabeth Davis, Malay Mandal, Christine Labno, Sarah E Powers, Michelle M Le Beau, Aaron R Dinner, Harinder Singh, Alexander J Ruthenburg, Marcus R Clark
RÉSUMÉ

Expression of vast repertoires of antigen receptors by lymphocytes, with each cell expressing a single receptor, requires stochastic activation of individual variable (V) genes for transcription and recombination. How this occurs remains unknown. Using single-cell RNA sequencing (scRNA-seq) and allelic variation, we show that individual pre-B cells monoallelically transcribe divergent arrays of Vκ genes, thereby opening stochastic repertoires for subsequent Vκ-Jκ recombination. Transcription occurs upon translocation of Vκ genes to RNA polymerase II arrayed on the nuclear matrix in transcription factories. Transcription is anchored by CTCF-bound sites or E2A-loaded Vκ promotors and continues over large genomic distances delimited only by topological associating domains (TADs). Prior to their monoallelic activation, Vκ loci are transcriptionally repressed by cyclin D3, which prevents capture of Vκ gene containing TADs by transcription factories. Cyclin D3 also represses protocadherin, olfactory, and other monoallelically expressed genes, suggesting a widely deployed mechanism for coupling monoallelic gene activation with cell cycle exit.

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Anticorps anti-sous-unité B1 de l'ARN polymérase II (CTD phosphorylé sur Ser2), clone 3E10, clone 3E10, from rat