Add to ORKGWe model light-scattering cross sections of concentrated aqueous mixtures of the bovine eye lens proteins γB- and α-crystallin by adapting a statistical-thermodynamic model of mixtures of spheres with short-range attractions. The model reproduces measured static light scattering cross sections, or Rayleigh ratios, of γB-α mixtures from dilute concentrations where light scattering intensity depends on molecular weights and virial coefficients, to realistically high concentration protein mixtures like those of the lens. The model relates γB-γB and γB-α attraction strengths and the γB-α size ratio to the free energy curvatures that set light scattering efficiency in tandem with protein refractive index increments. The model includes (i) hard-s...
β-Crystallins are structural proteins maintaining eye lens transparency and opacification. Previous ...
Dynamic properties of crowded protein solutions are difficult to predict and control. This for examp...
We report our use of static and dynamic light scattering techniques to study aqueous solutions of th...
Cataract, the leading cause of blindness worldwide, has motivated a variety of investigations into t...
We have studied diluted bovine eye lens alpha-crystallin solutions by using light scattering. The pr...
Liquid-liquid phase separation occurs in young mammalian eye lenses and in concentrated solutions of...
We study the equilibrium liquid structure and dynamics of dilute and concentrated bovine eye lens α-...
We have experimentally determined the coexistence surface characterizing the phase behavior of γD-β...
We present a multiscale characterization of aqueous solutions of the bovine eye lens protein βH crys...
Short range order of the crystallins does account for the transparency of the eye lens. To explain t...
Healthy eye lenses are transparent and flexible, able to adapt shape in order to focus on far away a...
Theoretical calculations were performed to predict how the light scattering intensity would change w...
AbstractMolecular dynamics (MD) simulations, circular dichroism (CD), and dynamic light scattering (...
Crystallins are water-soluble proteins that are necessary for focusing light on the retina. In mamma...
AbstractUsing an experimental technique recently developed in this laboratory (Fernández C. and A. P...
β-Crystallins are structural proteins maintaining eye lens transparency and opacification. Previous ...
Dynamic properties of crowded protein solutions are difficult to predict and control. This for examp...
We report our use of static and dynamic light scattering techniques to study aqueous solutions of th...
Cataract, the leading cause of blindness worldwide, has motivated a variety of investigations into t...
We have studied diluted bovine eye lens alpha-crystallin solutions by using light scattering. The pr...
Liquid-liquid phase separation occurs in young mammalian eye lenses and in concentrated solutions of...
We study the equilibrium liquid structure and dynamics of dilute and concentrated bovine eye lens α-...
We have experimentally determined the coexistence surface characterizing the phase behavior of γD-β...
We present a multiscale characterization of aqueous solutions of the bovine eye lens protein βH crys...
Short range order of the crystallins does account for the transparency of the eye lens. To explain t...
Healthy eye lenses are transparent and flexible, able to adapt shape in order to focus on far away a...
Theoretical calculations were performed to predict how the light scattering intensity would change w...
AbstractMolecular dynamics (MD) simulations, circular dichroism (CD), and dynamic light scattering (...
Crystallins are water-soluble proteins that are necessary for focusing light on the retina. In mamma...
AbstractUsing an experimental technique recently developed in this laboratory (Fernández C. and A. P...
β-Crystallins are structural proteins maintaining eye lens transparency and opacification. Previous ...
Dynamic properties of crowded protein solutions are difficult to predict and control. This for examp...
We report our use of static and dynamic light scattering techniques to study aqueous solutions of th...