Predictive base substitution rules that determine the binding and transcriptional specificity of Maf recognition elements

Tae Yamamoto, Motoki Kyo, Terue Kamiya, Toshiyuki Tanaka, James Douglas Engel, Hozumi Motohashi, Masayuki Yamamoto

Research output: Contribution to journalArticle

56 Citations (Scopus)

Abstract

Small Maf transcription factors possess a basic region-leucine zipper motif through which they form homodimers or heterodimers with CNC and Bach proteins. Different combinations of small Maf and CNC/Bach protein dimers bind to cis-acting DNA elements, collectively referred to as Maf-recognition elements (MAREs), to either activate or repress transcription. As MAREs defined by function are often divergent from the consensus sequence, we speculated that sequence variations in the MAREs form the basis for selective Maf:Maf or Maf:CNC dimer binding. To test this hypothesis, we analyzed the binding of Maf-containing dimers to variant sequences of the MARE using bacterially expressed MafG and Nrf2 proteins and a surface plasmon resonance-microarray imaging technique. We found that base substitutions in the MAREs actually determined their binding preference for different dimers. In fact, we were able to categorize MAREs into five groups: MafG homodimer-orientd MAREs (Groups I and II), ambivalent MAREs (Group III), MafG:Nrf2 heterodimer-orientd MAREs (Group IV), and silent MAREs (Group V). This study thus manifests that a clear set of rules pertaining to the cis-acting element determine whether a given MARE preferentially associates with MafG homodimer or with MafG:Nrf2 heterodimer.

Original languageEnglish
Pages (from-to)575-591
Number of pages17
JournalGenes to Cells
Volume11
Issue number6
DOIs
Publication statusPublished - 2006 Jun

ASJC Scopus subject areas

  • Genetics
  • Cell Biology

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