The identification of elements determining the different DNA binding specificities of the MADS box proteins p67SRFand RSRFC4

Abstract

The human transcription factors p67^SRF and RSRFC4 recognise similar but distinct binding sites which are found in the promoters of both muscle-specific and ‘immediate early’ genes. Both proteins share a common basic DNA-blnding domain, which is defined by the MADS box homology region. The DNA-blnding specificity of a truncated form of p67^SRF (core^SRF) can be converted to that of RSRFC4. Removal of residues Immediately N-terminal to the MADS box relaxes the specificity of coreSRF for Its cognate sequence (CC(AT)₆GG) as It Improves binding to the RSRFC4 site (CTA(A/T)₄TAG). Moreover, the Introduction of a single, additional mutation, K154E, Into the N-terminal truncated derivative completes the change in specificity to the RSRFC4 binding site. It also influences the salt dependence of DNA binding and ternary complex formation with p62_TCF. However, residues at this position do not appear to be involved in direct base-pair recognition. These results indicate that although the DNA binding specificity of p67_TCF can be converted to that of RSRFC4, the two proteins may bind DNA In different ways. Furthermore, they suggest that binding site specificity can be determined by an Indirect mechanism involving residues which are not directly Involved in base recognition.