The aim of this research was to determine the structure of human β-parvalbumin (109 amino acids) and to compare it with its paralog and ortholog proteins. The structure was determined in solution using multinuclear and multidimensional NMR methods and refined using substitution of the EF-hand Ca2+ ion with a paramagnetic lanthanide. The resulting family of structures had a backbone rmsd of 0.50 Å. Comparison with rat oncomodulin (X-ray, 1.3 Å resolution) as well as with human (NMR, backbone rmsd of 0.49 Å) and rat (X-ray, 2.0 Å resolution) parvalbumins reveals small but reliable local differences, often but not always related to amino acid variability. The analysis of these structures has led us to propose an explanation for the different affinity for Ca2+ between α- and β-parvalbumins and between parvalbumins and calmodulins.
Solution structure of human b-parvalbumin and structural comparison with its paralog a- parvalbumin and with their rat orthologs
Del Bianco, Cristina;Quattrone, Alessandro
2004-01-01
Abstract
The aim of this research was to determine the structure of human β-parvalbumin (109 amino acids) and to compare it with its paralog and ortholog proteins. The structure was determined in solution using multinuclear and multidimensional NMR methods and refined using substitution of the EF-hand Ca2+ ion with a paramagnetic lanthanide. The resulting family of structures had a backbone rmsd of 0.50 Å. Comparison with rat oncomodulin (X-ray, 1.3 Å resolution) as well as with human (NMR, backbone rmsd of 0.49 Å) and rat (X-ray, 2.0 Å resolution) parvalbumins reveals small but reliable local differences, often but not always related to amino acid variability. The analysis of these structures has led us to propose an explanation for the different affinity for Ca2+ between α- and β-parvalbumins and between parvalbumins and calmodulins.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione