Systematic elucidation and in vivo validation of sequences enriched in hindbrain transcriptional control

Grzegorz M Burzynski, Xylena Reed, Leila Taher, Zachary E Stine, Takeshi Matsui, Ivan Ovcharenko, Andrew S McCallion

Research output: Contribution to journalArticlepeer-review

Abstract

Illuminating the primary sequence encryption of enhancers is central to understanding the regulatory architecture of genomes. We have developed a machine learning approach to decipher motif patterns of hindbrain enhancers and identify 40,000 sequences in the human genome that we predict display regulatory control that includes the hindbrain. Consistent with their roles in hindbrain patterning, MEIS1, NKX6-1, as well as HOX and POU family binding motifs contributed strongly to this enhancer model. Predicted hindbrain enhancers are overrepresented at genes expressed in hindbrain and associated with nervous system development, and primarily reside in the areas of open chromatin. In addition, 77 (0.2%) of these predictions are identified as hindbrain enhancers on the VISTA Enhancer Browser, and 26,000 (60%) overlap enhancer marks (H3K4me1 or H3K27ac). To validate these putative hindbrain enhancers, we selected 55 elements distributed throughout our predictions and six low scoring controls for evaluation in a zebrafish transgenic assay. When assayed in mosaic transgenic embryos, 51/55 elements directed expression in the central nervous system. Furthermore, 30/34 (88%) predicted enhancers analyzed in stable zebrafish transgenic lines directed expression in the larval zebrafish hindbrain. Subsequent analysis of sequence fragments selected based upon motif clustering further confirmed the critical role of the motifs contributing to the classifier. Our results demonstrate the existence of a primary sequence code characteristic to hindbrain enhancers. This code can be accurately extracted using machine-learning approaches and applied successfully for de novo identification of hindbrain enhancers. This study represents a critical step toward the dissection of regulatory control in specific neuronal subtypes.

Original languageEnglish
Pages (from-to)2278-89
Number of pages12
JournalGenome Research
Volume22
Issue number11
DOIs
Publication statusPublished - Nov 2012

Keywords

  • Algorithms
  • Animals
  • Chromatin/metabolism
  • Enhancer Elements, Genetic
  • Gene Expression Regulation, Developmental
  • Genome, Human
  • Homeodomain Proteins/genetics
  • Humans
  • POU Domain Factors/genetics
  • Rhombencephalon/growth & development
  • Sequence Analysis, DNA/methods
  • Transcription Factors/genetics
  • Transcription, Genetic
  • Zebrafish

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