The study of homologous proteins belonging to the same family can provide a rationale for important molecular properties such as oligomer formation, folding mechanism and mode of binding. We report here a physico-chemical characterization of porcine beta -lactoglobulin, purified from pooled milk: size-exclusion chromatography, CD and NMR measurements were used to study the aggregation and stability of this protein. In spite of the high sequence identity and homology of porcine beta -lactoglobulin with the widely studied bovine species, the two proteins exhibit very different behaviours. The porcine protein shows a monomer-dimer equilibrium with a pH dependence opposite to that observed for the bovine species. Unfolding experiments revealed the presence of an intermediate that probably has excess alpha helices, as reported for equine species. Modelling studies were performed on bovine, porcine and equine proteins, and, interestingly, electrostatic surface potential calculations led to results consistent with the different dimer interface found for porcine beta -lactoglobulin in the crystal structure. Interaction studies revealed that porcine beta -lactoglobulin is unable to bind fatty acids at any pH, thus questioning the main functional role proposed for lactoglobulins as fatty acid transporters or solubilizers.

Dimerization, stability and electrostatic properties of porcine beta-lactoglobulin

Ragona L;
2001

Abstract

The study of homologous proteins belonging to the same family can provide a rationale for important molecular properties such as oligomer formation, folding mechanism and mode of binding. We report here a physico-chemical characterization of porcine beta -lactoglobulin, purified from pooled milk: size-exclusion chromatography, CD and NMR measurements were used to study the aggregation and stability of this protein. In spite of the high sequence identity and homology of porcine beta -lactoglobulin with the widely studied bovine species, the two proteins exhibit very different behaviours. The porcine protein shows a monomer-dimer equilibrium with a pH dependence opposite to that observed for the bovine species. Unfolding experiments revealed the presence of an intermediate that probably has excess alpha helices, as reported for equine species. Modelling studies were performed on bovine, porcine and equine proteins, and, interestingly, electrostatic surface potential calculations led to results consistent with the different dimer interface found for porcine beta -lactoglobulin in the crystal structure. Interaction studies revealed that porcine beta -lactoglobulin is unable to bind fatty acids at any pH, thus questioning the main functional role proposed for lactoglobulins as fatty acid transporters or solubilizers.
2001
Istituto per lo Studio delle Macromolecole - ISMAC - Sede Milano
electr
fatty acid interaction
NMR
porcine beta-lactoglobulin
unfolding studies
SECONDARY STRUCTURE
CIRCULAR-DICHROISM
HYDROGEN-EXCHANGE
PH 2
PROTEIN
ACID
EQUILIBRIUM
SPECTROSCOPY
INTERMEDIATE
DYNAMICS
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/201590
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