HNF1beta is a POU transcription factor that is frequently mutated in patients that suffer from diabetes and renal cystic dysplasia. This protein has the peculiar ability to bind mitotic chromosomes and behave as a gene bookmarking. Here we show that the capacity of HNF1beta to bind to DNA plays an essential role for mitotic binding. A close homologue, HNF1alpha, shares the ability of HNF1beta to bind to mitotic chromosomes, and several MODY mutations (e.g P256S, V265L and C273Y) affect the ability of the protein to localize to mitotic chromatin. Interestingly, the phenotype induced by these mutations is very rapidly rescued by sudden temperature shifts. Temperature-sensitivity is probably linked to a conformational change that prevents DNA binding ability of P256S and V265L mutants at 37°C. Interestingly, the mitotic relocalization of these mutants induced by temperature shift was sensitive to energy depletion and importazole, suggesting an active mechanism involving the importin-beta system. Interestingly, C273Y mutant exhibited a significantly mitotic dispersion that is not correlated with any DNA or interphase chromatin binding defect, indicating that DNA binding function is necessary but not sufficient to accomplish bookmarking.