Structural basis of TBX5-DNA recognition: the T-box domain in its DNA-bound and -unbound form.

[holt-oram syndrome]

TBX 5 , a member of the T -box transcription factor family , plays an important role in heart and limb development . More than 60 single point or deletion mutations of human TBX 5 are associated with Holt-Oram syndrome that manifests itself as heart and limb malformations in 1 out of 100 ,000 live births . The majority of these mutations are located in the TBX 5 T -box domain . We solved the crystal structures of the human TBX 5 T -box domain in its DNA-unbound form and in complex with a natural DNA target site allowing for the first time the comparison between unbound and DNA-bound forms . Our analysis identifies a 3 (10 )-helix at the C-terminus of the T -box domain as an inducible recognition element , critically required for the interaction with DNA , as it only forms upon DNA binding and is unstructured in the DNA-unbound form . Using circular dichroism , we characterized the thermal stability of six TBX 5 mutants containing single point mutations in the T -box domain (M 74 V , G 8 0 R , W 121 G , G 169 R , T 22 3 M , and R 237 W ) and compared them with wild-type protein . Mutants G 8 0 R and W 121 G show drastically reduced thermal stability , while the other mutants only show a marginal stability decrease . For all TBX 5 mutants , binding affinities to specific and nonspecific DNA sequences were determined using isothermal titration calorimetry . All TBX 5 mutants show reduced binding affinities to a specific DNA target site , although to various degrees . Interestingly , all tested TBX 5 mutants differ in their ability to bind unspecific DNA , indicating that both sequence-specific and unspecific binding might contribute to the misregulation of target gene expression .