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A comparative study of peptide models of the alpha-domain of alpha-lactalbumin, lysozyme, and alpha-lactalbumin/lysozyme chimeras allows the elucidation of critical factors that contribute to the ability to form stable partially folded states
Authors:Demarest S J  Zhou S Q  Robblee J  Fairman R  Chu B  Raleigh D P
Affiliation:Department of Chemistry, State University of New York at Stony Brook, Stony Brook, New York 11794-3400, USA.
Abstract:alpha-Lactalbumin (alpha LA) forms a well-populated equilibrium molten globule state, while the homologous protein hen lysozyme does not. alpha LA is a two-domain protein and the alpha-domain is more structured in the molten globule state than is the beta-domain. Peptide models derived from the alpha-subdomain that contain the A, B, D, and 3(10) helices of alpha LA are capable of forming a molten globule state in the absence of the remainder of the protein. Here we report comparative studies of a peptide model derived from the same region of hen lysozyme and a set of chimeric alpha-lactalbumin--lysozyme constructs. Circular dichroism, dynamic light scattering, sedimentation equilibrium, and fluorescence experiments indicate that the lysozyme construct does not fold. Chimeric constructs were prepared to probe the origins of the difference in the ability of the two isolated subdomains to fold. The first consists of the A and B helices of alpha LA cross-linked to the D and C-terminal 3(10) helices of lysozyme. This construct is highly helical, while a second construct that contains the A and B helices of lysozyme cross-linked to the D and 3(10) helices of alpha LA does not fold. Furthermore, the disulfide cross-linked homodimer of the alpha LA AB peptide is helical, while the homodimer of the lysozyme AB peptide is unstructured. Thus, the AB helix region of alpha LA appears to have an intrinsic ability to form structure as long as some relatively nonspecific interactions can be made with other regions of the protein. Our studies show that the A and B helices plays a key role in the ability of the respective alpha-subdomains to fold.
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