Istituto di Cristallografia - CNR

Structural characterization of the thermal unfolding pathway of human VEGFR1D2 domain

Folding stability is a crucial feature of protein evolution and is essential for protein functions. Thus, the comprehension of protein folding mechanisms represents an important complement to protein structure and function, crucial to determine the structural basis of protein misfolding. In this context, thermal unfolding studies represent a useful tool to get a molecular description of the conformational transitions governing the folding/unfolding equilibrium of a given protein. Here, we report the thermal folding/unfolding pathway of VEGFR1D2, a member of the immunoglobulin superfamily by means of a high-resolution thermodynamic approach that combines differential scanning calorimetry with atomic-level unfolding monitored by NMR. We show how VEGFR1D2 folding is driven by an oxidatively induced disulfide pairing: the key event in the achievement of its functional structure is the formation of a small hydrophobic core that surrounds a disulfide bridge. Such a ‘folding nucleus’ induces the cooperative transition to the properly folded conformation supporting the hypothesis that a disulfide bond can act as a folding nucleus that eases the folding process.

The FEBS journal (Online)
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Donatella Diana, Rossella Di Stasi, Sara García-Viñuales, Lucia De Rosa, Carla Isernia, Gaetano Malgieri, Danilo Milardi, Luca D. D'Andrea and Roberto Fattorusso
Autori IC CNR