Fernández C, Minton AP. Static light scattering from concentrated protein solutions. II. Experimental test of theory for protein mixtures and weakly self-associating proteins. Biophys J 96: 1992-1998, 2009. [Full Text/Abstract]
Fernández C, Minton AP. Automated measurement of the static light scattering of macromolecular solutions over a broad range of concentration. Anal Biochem 381: 254-257, 2008. [Full Text/Abstract]
Zhou H-X, Rivas G, Minton AP. Macromolecular crowding and confinement: biochemical, biophysical, and potential physiological consequences. Ann Rev Biophys 37: 375-97, 2008. [Full Text/Abstract]
Jimenez M, Rivas G, Minton AP Quantitative Characterization of Weak Self-Association in Concentrated Solutions of Immunoglobulin G via the Measurement of Sedimentation Equilibrium and Osmotic Pressure. Biochemistry(46): 8373-8378, 2007. [Full Text/Abstract]
Minton AP Static light scattering from concentrated protein solutions, I: general theory for protein mixtures and application to self-associating proteins. Biophys J(93): 1321-8, 2007. [Full Text/Abstract]
Minton AP The effective hard particle model provides a simple, robust, and broadly applicable description of nonideal behavior in concentrated solutions of bovine serum albumin and other nonassociating proteins. J Pharm Sci, 2007. [Full Text/Abstract]
Minton AP How can biochemical reactions within cells differ from those in test tubes? J Cell Sci(119): 2863-9, 2006. [Full Text/Abstract]
Kameyama K, Minton AP Rapid quantitative characterization of protein interactions by composition gradient static light scattering. Biophys J(90): 2164-9, 2006. [Full Text/Abstract]
Minton AP Influence of macromolecular crowding upon the stability and state of association of proteins: predictions and observations. J Pharm Sci(94): 1668-75, 2005. [Full Text/Abstract]
Minton AP Models for excluded volume interaction between an unfolded protein and rigid macromolecular cosolutes: macromolecular crowding and protein stability revisited. Biophys J (88): 971-85, 2005. [Full Text/Abstract]
Attri AK, Minton AP New methods for measuring macromolecular interactions in solution via static light scattering: basic methodology and application to nonassociating and self-associating proteins. Anal Biochem(337): 103-10, 2005. [Full Text/Abstract]
Zorrilla S Jimenez M Lillo P Rivas G Minton AP Sedimentation equilibrium in a solution containing an arbitrary number of solute species at arbitrary concentrations: theory and application to concentrated solutions of ribonuclease. Biophys Chem (108): 89-100, 2004. [Full Text/Abstract]
Sasahara K McPhie P Minton AP Effect of dextran on protein stability and conformation attributed to macromolecular crowding. J Mol Biol (326): 1227-37, 2003. [Full Text/Abstract]
Hall D Minton AP Macromolecular crowding: qualitative and semiquantitative successes, quantitative challenges. Biochim Biophys Acta (1649): 127-39, 2003. [Full Text/Abstract]
Hatters DM Minton AP Howlett GJ Macromolecular crowding accelerates amyloid formation by human apolipoprotein C-II. J Biol Chem (277): 7824-30, 2002. [Full Text/Abstract]
Minton AP Effects of excluded surface area and adsorbate clustering on surface adsorption of proteins. II. Kinetic models. Biophys J (80): 1641-8, 2001. [Full Text/Abstract]
Minton AP The influence of macromolecular crowding and macromolecular confinement on biochemical reactions in physiological media. J Biol Chem (276): 10577-80, 2001. [Full Text/Abstract]
Minton AP Implications of macromolecular crowding for protein assembly. Curr Opin Struct Biol (10): 34-9, 2000. [Full Text/Abstract]