Combination of acoustic levitation with small angle scattering techniques and synchrotron radiation circular dichroism. Application to the study of protein solutions.

[1]  Frank Wien,et al.  Accurate secondary structure prediction and fold recognition for circular dichroism spectroscopy , 2015, Proceedings of the National Academy of Sciences.

[2]  Geoffrey Lee,et al.  Trehalose and sorbitol alter the kinetic pattern of inactivation of glutamate dehydrogenase during drying in levitated microdroplets. , 2013, Journal of pharmaceutical sciences.

[3]  B. Lagarde,et al.  DISCO synchrotron-radiation circular-dichroism endstation at SOLEIL. , 2012, Journal of synchrotron radiation.

[4]  A. Mcauley,et al.  Small-angle neutron scattering study of protein crowding in liquid and solid phases: lysozyme in aqueous solution, frozen solution, and carbohydrate powders. , 2012, The journal of physical chemistry. B.

[5]  S. Mann,et al.  A polymer surfactant corona dynamically replaces water in solvent-free protein liquids and ensures macromolecular flexibility and activity. , 2012, Journal of the American Chemical Society.

[6]  Geoffrey Lee,et al.  Slow motion picture of protein inactivation during single-droplet drying: a study of inactivation kinetics of L-glutamate dehydrogenase dried in an acoustic levitator. , 2012, Journal of pharmaceutical sciences.

[7]  Louis Hennet,et al.  Aerodynamic levitation and laser heating: , 2011 .

[8]  P. Baglioni,et al.  Formation of the Dynamic Clusters in Concentrated Lysozyme Protein Solutions , 2010 .

[9]  Chi Bun Ching,et al.  Toward Further Understanding of Lysozyme Crystallization: Phase Diagram, Protein−Protein Interaction, Nucleation Kinetics, and Growth Kinetics , 2010 .

[10]  Daniel Zerbib,et al.  DISCO: a low-energy multipurpose beamline at synchrotron SOLEIL. , 2009, Journal of synchrotron radiation.

[11]  C. A. Rey,et al.  Acoustic levitator for structure measurements on low temperature liquid droplets. , 2009, The Review of scientific instruments.

[12]  Jork Leiterer,et al.  Agglomeration of proteins in acoustically levitated droplets , 2008, Analytical and bioanalytical chemistry.

[13]  D. Svergun,et al.  Absence of equilibrium cluster phase in concentrated lysozyme solutions , 2008, Proceedings of the National Academy of Sciences.

[14]  U. Panne,et al.  Structure analysis using acoustically levitated droplets , 2008, Analytical and bioanalytical chemistry.

[15]  Geoffrey Lee,et al.  Single-droplet evaporation kinetics and particle formation in an acoustic levitator. Part 1: evaporation of water microdroplets assessed using boundary-layer and acoustic levitation theories. , 2007, Journal of pharmaceutical sciences.

[16]  Geoffrey Lee,et al.  Single-droplet evaporation kinetics and particle formation in an acoustic levitator. Part 2: drying kinetics and particle formation from microdroplets of aqueous mannitol, trehalose, or catalase. , 2007, Journal of pharmaceutical sciences.

[17]  G. Strambini,et al.  Protein stability in ice. , 2007, Biophysical journal.

[18]  A. Jensen,et al.  Model based analysis of the drying of a single solution droplet in an ultrasonic levitator , 2006 .

[19]  Frédéric Cardinaux,et al.  Equilibrium cluster formation in concentrated protein solutions and colloids , 2004, Nature.

[20]  S. Chung,et al.  Containerless protein crystal growth in rotating levitated drops , 1998 .

[21]  S. Krishnan,et al.  Levitation apparatus for structural studies of high temperature liquids using synchrotron radiation , 1997 .

[22]  J. Lee,et al.  The stabilization of proteins by sucrose. , 1981, The Journal of biological chemistry.

[23]  R. Apfel,et al.  A novel microtechnique for the measurement of acoustic properties of lipids , 1977 .