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Synthetic regulatory reconstitution reveals principles of mammalian Hox cluster regulation.

Sudarshan PinglayMilica BulajićDylan P RaheEmily HuangRan BroshNicholas E MamrakBenjamin R KingSergei GermanJohn A CadleyLila RieberNicole EasoTimothée LionnetShaun MahonyMatthew T MauranoLiam J HoltEsteban Orlando MazzoniJef D Boeke
Published in: Science (New York, N.Y.) (2022)
Precise Hox gene expression is crucial for embryonic patterning. Intra- Hox transcription factor binding and distal enhancer elements have emerged as the major regulatory modules controlling Hox gene expression. However, quantifying their relative contributions has remained elusive. Here, we introduce "synthetic regulatory reconstitution," a conceptual framework for studying gene regulation, and apply it to the HoxA cluster. We synthesized and delivered variant rat HoxA clusters (130 to 170 kilobases) to an ectopic location in the mouse genome. We found that a minimal HoxA cluster recapitulated correct patterns of chromatin remodeling and transcription in response to patterning signals, whereas the addition of distal enhancers was needed for full transcriptional output. Synthetic regulatory reconstitution could provide a generalizable strategy for deciphering the regulatory logic of gene expression in complex genomes.
Keyphrases
  • transcription factor
  • gene expression
  • dna binding
  • dna methylation
  • long non coding rna
  • long noncoding rna
  • oxidative stress
  • genome wide
  • genome wide identification
  • minimally invasive