Litcius/Paper detail

A screen for regeneration-associated silencer regulatory elements in zebrafish

Kazunori Ando, Jianhong Ou, John Thompson, John Welsby, Sushant Bangru, Jingwen Shen, Xiaolin Wei, Yarui Diao, Kenneth D. Poss

2024Developmental Cell10 citationsDOIOpen Access PDF

Abstract

Regeneration involves gene expression changes explained in part by context-dependent recruitment of transcriptional activators to distal enhancers. Silencers that engage repressive transcriptional complexes are less studied than enhancers and more technically challenging to validate, but they potentially have profound biological importance for regeneration. Here, we identified candidate silencers through a screening process that examined the ability of DNA sequences to limit injury-induced gene expression in larval zebrafish after fin amputation. A short sequence (s1) on chromosome 5 near several genes that reduce expression during adult fin regeneration could suppress promoter activity in stable transgenic lines and diminish nearby gene expression in knockin lines. High-resolution analysis of chromatin organization identified physical associations of s1 with gene promoters occurring preferentially during fin regeneration, and genomic deletion of s1 elevated the expression of these genes after fin amputation. Our study provides methods to identify "tissue regeneration silencer elements" (TRSEs) with the potential to reduce unnecessary or deleterious gene expression during regeneration.

Topics & Concepts

BiologyEnhancerZebrafishRegeneration (biology)Gene expressionGeneRegulation of gene expressionChromatinGeneticsContext (archaeology)Regulatory sequenceSilencerCell biologyTransgeneMechanical engineeringEngineeringInletPaleontologyGenomics and Chromatin DynamicsDevelopmental Biology and Gene RegulationRNA Research and Splicing