Abstract
This work focuses on the pathogenic missense mutation in YY1 protein correlated with insulinomas. Based on in vitro studies, we demonstrate that the mutation does not affect the secondary structure of either zinc fingers or the N-terminal fragment (NTF) of the protein. Apart from a slight increase in the protein's compactness, no changes in the tertiary structure were observed. The introduced mutation significantly alters DNA-binding properties, both the affinity and enthalpy-entropy contribution of the process, which are highly dependent on the recognized sequence. Obtained results indicate concerted rather than a modular mode of sequence recognition by YY1 with the significant impact of a disordered NTF.
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