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The DNA-Binding High-Mobility Group Box Domain of Sox Family Proteins Directly Interacts with RNA <i>In Vitro</i>

Desmond J. Hamilton, Abigail E. Hein, Zachariah E. Holmes, Deborah S. Wuttke, Robert Batey

2022Biochemistry21 citationsDOIOpen Access PDF

Abstract

There is a growing body of evidence that a substantial number of protein domains identified as DNA-binding also interact with RNA to regulate biological processes. Several recent studies have revealed that the Sox2 transcription factor binds RNA through its high-mobility group box (HMGB) domain in vitro and in vivo. A high degree of conservation of this domain among members of the Sox family of transcription factors suggests that RNA-binding activity may be a general feature of these proteins. To address this hypothesis, we examined a subset of HMGB domains from human Sox family of proteins for their ability to bind both DNA and RNA in vitro. We observed selective, high-affinity interactions between Sox family HMGB domains and various model RNA elements, including a four-way junction RNA, a hairpin RNA with an internal bulge, G-quadruplex RNA, and a fragment of long noncoding RNA ES2, which is known to directly interact with Sox2. Importantly, the HMGB domains bind these RNA ligands significantly tighter than nonconsensus dsDNA and in some cases with affinities rivaling those of their consensus dsDNA sequences. These data suggest that RNA binding is a conserved feature of the Sox family of transcription factors with the potential to modulate unappreciated biological functions.

Topics & Concepts

High-mobility groupRNADNACell biologyRNA-binding proteinDNA-binding domainIn vitroComputational biologyHMG-boxBiologyTranscription factorGeneticsDNA-binding proteinChemistryMolecular biologyGeneRNA Research and SplicingRNA regulation and diseaseRNA and protein synthesis mechanisms