Developmental regulation of cell type-specific transcription by novel promoter-proximal sequence elements

  1. Margaret T. Fuller1,2
  1. 1Department of Developmental Biology, Stanford University School of Medicine, Stanford, California 94305, USA;
  2. 2Department of Genetics, Stanford University School of Medicine, Stanford, California 94305, USA
  1. Corresponding author: mtfuller{at}stanford.edu
  • 3 Present address: Surrozen, Inc., South San Francisco, CA 94080, USA.

Abstract

Cell type-specific transcriptional programs that drive differentiation of specialized cell types are key players in development and tissue regeneration. One of the most dramatic changes in the transcription program in Drosophila occurs with the transition from proliferating spermatogonia to differentiating spermatocytes, with >3000 genes either newly expressed or expressed from new alternative promoters in spermatocytes. Here we show that opening of these promoters from their closed state in precursor cells requires function of the spermatocyte-specific tMAC complex, localized at the promoters. The spermatocyte-specific promoters lack the previously identified canonical core promoter elements except for the Inr. Instead, these promoters are enriched for the binding site for the TALE-class homeodomain transcription factors Achi/Vis and for a motif originally identified under tMAC ChIP-seq peaks. The tMAC motif resembles part of the previously identified 14-bp β2UE1 element critical for spermatocyte-specific expression. Analysis of downstream sequences relative to transcription start site usage suggested that ACA and CNAAATT motifs at specific positions can help promote efficient transcription initiation. Our results reveal how promoter-proximal sequence elements that recruit and are acted upon by cell type-specific chromatin binding complexes help establish a robust, cell type-specific transcription program for terminal differentiation.

Keywords

Footnotes

  • Received November 22, 2019.
  • Accepted March 4, 2020.

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