Regulatory architecture of housekeeping genes is driven by promoter assemblies

Marion Dejosez, Alessandra Dall'Agnese, Mahesh Ramamoorthy, Jesse Platt, Xing Yin, Megan Hogan, Ran Brosh, Abraham S. Weintraub, Denes Hnisz, Brian J. Abraham, Richard A. Young, Thomas P. Zwaka

Research output: Contribution to journalArticlepeer-review

11 Scopus citations

Abstract

Genes that are key to cell identity are generally regulated by cell-type-specific enhancer elements bound by transcription factors, some of which facilitate looping to distant gene promoters. In contrast, genes that encode housekeeping functions, whose regulation is essential for normal cell metabolism and growth, generally lack interactions with distal enhancers. We find that Ronin (Thap11) assembles multiple promoters of housekeeping and metabolic genes to regulate gene expression. This behavior is analogous to how enhancers are brought together with promoters to regulate cell identity genes. Thus, Ronin-dependent promoter assemblies provide a mechanism to explain why housekeeping genes can forgo distal enhancer elements and why Ronin is important for cellular metabolism and growth control. We propose that clustering of regulatory elements is a mechanism common to cell identity and housekeeping genes but is accomplished by different factors binding distinct control elements to establish enhancer-promoter or promoter-promoter interactions, respectively.

Original languageEnglish
Article number112505
JournalCell Reports
Volume42
Issue number5
DOIs
StatePublished - 30 May 2023

Keywords

  • CP: Molecular biology
  • DNA looping
  • P element
  • domestication
  • embryonic stem cells
  • genome organization
  • promoter-promoter interaction
  • ronin
  • transcriptional regulation
  • transposon

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