A DNA base-specific sequence interposed between CRX and NRL contributes to RHODOPSIN expression.
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Abstract
The binding affinity of transcription factors (TFs) for their cognate DNA sequences controls gene expression. DNA determines the recruitment and positioning of TFs; whether it plays other roles is unknown. Here we found that the specific 22-bp sequence interposed between the CRX and NRL TFs in the proximal promoter of RHODOPSIN (RHO) largely controls the expression levels of RHO. Mutagenesis of this DNA-linker sequence resulted in wide variation in gene expression. In contrast, reciprocal exchange of human and murine RHO elements conferred species-specific expression levels. Targeting the DNA-linker with equal orthogonal DNA-binding proteins activates or represses RHO expression depending on its orientation relative to CRX and NRL binding sites. We conclude that DNA itself adds to TF activity through a code that determines optimal levels of RHO expression.
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