The homodimeric structure of human S100A16 in the apo state has been obtained both in the solid state and in solution, resulting in good agreement between the structures with the exception of two loop regions. The homodimeric solution structure of human S100A16 was also calculated in the calcium(II)-bound form. Differently from most S100 proteins, the conformational rearrangement upon calcium binding is minor. This characteristic is likely to be related to the weak binding affinity of the protein for the calcium(II) ions. In turn, this is ascribed to the lack of the glutamate residue at the end of the S100-specific N-domain binding site, which in most S100 proteins provides two important side chain oxygen atoms as calcium(II) ligands. Furthermore, the presence of hydrophobic interactions stronger than for other S100 proteins, present in the closed form of S100A16 between the third and fourth helices, likely make the closed structure of the second EF-hand particularly stable, so even upon calcium(II) binding such a conformation is not disrupted.

Structural characterization of human S100A16, a low affinity calcium binder / E. Babini; I. Bertini; V. Borsi; V. Calderone; X. Hu; C. Luchinat; G. Parigi. - In: JBIC. - ISSN 0949-8257. - STAMPA. - 16:(2011), pp. 243-256. [10.1007/s00775-010-0721-3]

Structural characterization of human S100A16, a low affinity calcium binder

BERTINI, IVANO;BORSI, VALENTINA;CALDERONE, VITO;HU, XIAOYU;LUCHINAT, CLAUDIO;PARIGI, GIACOMO
2011

Abstract

The homodimeric structure of human S100A16 in the apo state has been obtained both in the solid state and in solution, resulting in good agreement between the structures with the exception of two loop regions. The homodimeric solution structure of human S100A16 was also calculated in the calcium(II)-bound form. Differently from most S100 proteins, the conformational rearrangement upon calcium binding is minor. This characteristic is likely to be related to the weak binding affinity of the protein for the calcium(II) ions. In turn, this is ascribed to the lack of the glutamate residue at the end of the S100-specific N-domain binding site, which in most S100 proteins provides two important side chain oxygen atoms as calcium(II) ligands. Furthermore, the presence of hydrophobic interactions stronger than for other S100 proteins, present in the closed form of S100A16 between the third and fourth helices, likely make the closed structure of the second EF-hand particularly stable, so even upon calcium(II) binding such a conformation is not disrupted.
2011
16
243
256
E. Babini; I. Bertini; V. Borsi; V. Calderone; X. Hu; C. Luchinat; G. Parigi
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/432103
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