Asp ligand provides the trigger for closure of transferrin molecules. Direct evidence from X-ray scattering studies of site-specific mutants of the N-terminal half-molecule of human transferrin.

Recent X-ray crystallographic and solution X-ray scattering studies have shown that transferrins (serum transferrin, lactoferrin and ovotransferrin) undergo a major conformational change when iron is incorporated into the molecule. Apo-proteins show a structure with open interdomain clefts which close when iron is bound. The closed conformation has been suggested as an important step in the receptor recognition. Here, we report X-ray solution scattering experiments of the mutated N-terminal fragment of human serum transferrin with Asp63-->Ser (Cys). The data provide the first direct experimental evidence for the existence of a trigger mechanism for the closure of the interdomain cleft and that this trigger mechanism is disrupted by mutation of Asp63, the only ligand of iron from domain I.