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Structural properties of the DNA-bound form of a novel tandem repeat DNA-binding domain, STPR

Overview of Saito S et al.

AuthorsSaito S  Yokoyama T  Aizawa T  Kawaguchi K  Yamaki T  Matsumoto D  Kamijima T  Kamiya M  Kumaki Y  Mizuguchi M  Takiya S  Demura M  Kawano K  
AffiliationDepartment of Biological Sciences   Graduate School of Science   Hokkaido University   Sapporo 060-0810   Japan.  
JournalProteins
Year 2008

Abstract


Fibroin-modulator-binding protein 1 (FMBP-1) is a predicted transcription factor of the silkworm fibroin gene. The DNA-binding domain of FMBP-1 consists of four almost perfect tandem repeats of 23 amino acids each (R1-R4), and is referred to as the score and three amino acid peptide repeat (STPR) domain. This characteristic domain is conserved in eukaryotes, but the DNA-binding mode is not known. In this study, the structural properties of the DNA-bound form of the STPR domain were characterized. The combined experiments indicated that the STPR domain bound to the DNA duplex with a 1:1 binding ratio. The specific DNA caused considerable changes in the thermal unfolding profile and the digestion pattern of the STPR domain. These data suggested that the domain adapts a quite rigid helix-rich structure in the DNA-bound state, even though it moves flexibly in the absence of DNA. Furthermore, mutual induced-fit conformational change was also observed in DNA. Finally, we determined the DNA-binding surface of the STPR third repeat (R3) by alanine scanning mutagenesis; a particular site, composed of hydrophobic and hydrophilic residues, was identified. Notably, the substitution of Arg-9 in R3 with alanine residue, which is located in the middle of the surface, drastically abolished the alpha-helix-inducing and DNA-binding abilities. From these results, we predicted the DNA-binding mode of the STPR domain.