The myoglobins of two trematodes, Paramphistomum epiclitum and Isoparorchis hypselobagri, were isolated to homogeneity. The native molecules are monomeric with M r 16,000 -17,000 and pI 6.5-7.5. In each species, at least four different globin isoforms occur. Primary structure was determined at the protein level.
Short range order of the crystallins does account for the transparency of the eye lens. To explain the solution structure of this highly concentrated protein solution on a quantitative basis, the hydrodynamic structure and the interparticle interactions of the proteins have to be known. For that purpose, the light scattering of concentrated solutions of alpha-crystallin has been studied. Starting from the detailed knowledge of the solution parameters of alpha-crystallin in diluted solutions, the structure of concentrated solutions up to 360 mg/ml has been studied using light scattering. Our results indicate that subtle changes in the macromolecular structure such as optical anisotropy or structural asymmetry for part of the alpha-crystallins, which results in solute light-scattering heterogeneity, can dramatically increase the light scattering by the alpha-crystallins and cause solution opacity.
Alpha-crystallin is the most important soluble protein in the eye lens. It is responsible for creating a high refractive index and is known to be a small heat-shock protein. We have used static and dynamic light scattering to study its quaternary structure as a function of isolation conditions, temperature, time, and concentration. We have used tryptophan fluorescence to study the temperature dependence of the tertiary structure and its reversibility. Gel filtration, analytical ultracentrifugation, polyacrylamide gel electrophoretic analysis, and absorption measurements were used to study the chaperone-like activity of alpha-crystallin in the presence of destabilized lysozyme. We have demonstrated that the molecular mass of the in vivo alpha-crystallin oligomer is about 700 kDa (alpha(native)) while the 550 kDa molecule (alpha(37 degrees C),diluted), which is often found in vitro, is a product of prolonged storage at 37 degrees C of low concentrated alpha-crystallin solutions. We have proven that the molecular mass of the alpha-crystallin oligomer is concentration dependent at 37 degrees C. We have found strong indications that, during chaperoning, the alpha-crystallin oligomer undergoes a drastic rearrangement of its peptides during the process of complex formation with destabilized lysozyme. We propose the hypothesis that all these processes are governed by the phenomenon of subunit exchange, which is well-known to be strongly temperature-dependent.
We have studied the interaction between lysozyme, destabilized by reducing its -S-S- bonds, and bovine eye lens alpha-crystallin, a member of the alpha-small heat shock protein superfamily. We have used gel filtration, photon correlation spectroscopy, and analytical ultracentrifugation to study the binding of lysozyme by alpha-crystallin at 25 degrees C and 37 degrees C. We can conclude that alpha-crystallin chaperones the destabilized protein in a two-step process. First the destabilized proteins are bound by the alpha-crystallin so that nonspecific aggregation of the destabilized protein is prevented. This complex is unstable, and a reorganization and inter-particle exchange of the peptides result in stable and soluble large particles. alpha-Crystallin does not require activation by temperature for the first step of its chaperone activity as it prevents the formation of nonspecific aggregates at 25 degrees C as well as at 37 degrees C. The reorganization of the peptides, however, gives rise to smaller particles at 37 degrees C than at 25 degrees C. Indirect evidence shows that the association of several alpha-crystallin/substrate protein complexes leads to the formation of very large particles. These are responsible for the increase of the light scattering.
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