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Reaction progress was followed using an Agilent diode array UV-visible spectrometer with Agilent ChemStation software. As the reaction progressed, the solution changed color to orange—brown Partitioning of reaction product was determined by measuring the absorbance in each phase. After mixing, phases were separated by centrifugation. The concentration of product in each phase was calculated by measuring absorbance of three samples for each phase using an Agilent diode array UV-visible spectrometer with Agilent ChemStation software.

Absorbance values were corrected for each phase. Moore, D. X-ray diffraction and the identification and analysis of clay minerals. Burst, J. The application of clay minerals in ceramics. Applied Clay Science 5 , —, doi: Rong, D. Electrochemistry and photoelectrochemistry of pillared-clay-modified electrodes. Inorganic Chemistry 29 , —, doi: Zeng, Q. Clay-based polymer nanocomposites: research and commercial development.

J Nanosci Nanotechnol 5 , —, doi: Nagendrappa, G. Organic synthesis using clay and clay-supported catalysts. Applied Clay Science 53 , —, doi: Zhou, C. Clay mineral-based catalysts and catalysis. Applied Clay Science 53 , 85—86, doi: Pinnavaia, T. Intercalated Clay Catalysts. Science , —, doi: Bernal, J. The Physical Basis of Life. P Phys Soc Lond A 62 , —, doi: Ferris, J. Hanczyc, M. Mineral surface directed membrane assembly. Origins of life and evolution of the biosphere: the journal of the International Society for the Study of the Origin of Life 37 , 67—82, doi: Cleaves, H. Mineral-organic interfacial processes: potential roles in the origins of life.

Chemical Society reviews 41 , —, doi: Experimental models of primitive cellular compartments: Encapsulation, growth, and division. Hazen, R. Mineral surfaces, geochemical complexities, and the origins of life.

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Cold Spring Harbor perspectives in biology 2 , a, doi: Hashizume, H. Keating, C. Accounts Chem Res 45 , —, doi: Mann, S. Koonin, E. An RNA-making reactor for the origin of life. Dewey, D. Bioreactor droplets from liposome-stabilized all-aqueous emulsions. Nature communications 5 , , doi: Stano, P. Compartmentalized reactions as a case of soft-matter biotechnology: synthesis of proteins and nucleic acids inside lipid vesicles. J Mater Chem 21 , —, doi: Chen, I.

From Self-Assembled Vesicles to Protocells. Cold Spring Harbor perspectives in biology 2 Oparin, A. The origin of life on the earth. Academic Press, Rasmussen, S. Protocells: Bridging Nonliving and Living Matter. MIT Press, Frankel, E. In Astrobiology: An Evolutionary Approach ed. Strulson, C. RNA catalysis through compartmentalization. Nat Chem 4 , —, doi: Walter, H. Elsevier, Hatti-Kaul, R. Aqueous two-phase systems: methods and protocols. Tolstoguzov, V. Some thermodynamic considerations in food formulation.

Food Hydrocolloid 17 , 1—23, doi: Zaslavsky, B. Aqueous two-phase partitioning: physical chemistry and bioanalytical applications.

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CRC Press, Davis, B. Biophys J , —, doi: Tang, T. Fatty acid membrane assembly on coacervate microdroplets as a step towards a hybrid protocell model. Nat Chem 6 , —, doi: Binks, B. Rheological behavior of water-in-oil emulsions stabilized by hydrophobic bentonite particles. Langmuir 21 , —, doi: Lagaly, G. Smectites as colloidal stabilizers of emulsions - I. Preparation and properties of emulsions with smectites and nonionic surfactants.

Applied Clay Science 14 , 83—, doi: Yan, N. Journal of Colloid and Interface Science , —, doi: Ashby, N.

Aqueous Two-Phase Partitioning: Physical Chemistry and Bioanalytical Applications

Pickering emulsions stabilised by Laponite clay particles. Physical Chemistry Chemical Physics 2 , —, doi: Abend, S. Stabilization of emulsions by heterocoagulation of clay minerals and layered double hydroxides. Colloid Polym Sci , —, doi: Voorn, D. Polymer-clay nanocomposite latex particles by inverse pickering emulsion polymerization stabilized with hydrophobic montmorillonite platelets. Macromolecules 39 , —, doi: Li, W. Oil-in-water emulsions stabilized by Laponite particles modified with short-chain aliphatic amines. Colloidal Particles at Liquid Interfaces.

Cambridge University Press, Aveyard, R. Emulsions stabilised solely by colloidal particles. Adv Colloid Interfac , — Vis, M. Water-in-Water Emulsions Stabilized by Nanoplates. ACS Macro Letters , —, doi: On water-in-oil emulsions stabilized by fine solids. Colloid Surface A , 97—, doi: Balakrishnan, G. Langmuir 28 , —, doi: Firoozmand, H. Langmuir 25 , —, doi: Nguyen, B. Langmuir 29 , —, doi: Buzza, D. Albertsson, P.

Partition of Cell Particles and Macromolecules. Wiley, Miller, M. Miller Accounting Publications, New York, Brown, G. Philos T R Soc A , —, doi: Grim, R. Clay mineralogy. Martin, R. Clay Clay Miner 39 , —, doi: Veghte, D. Aerosol Science and Technology 48 , —, doi: Broadley, S.

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Immersion mode heterogeneous ice nucleation by an illite rich powder representative of atmospheric mineral dust. Atmos Chem Phys 12 , —, doi: Chorom, M. Dispersion and zeta potential of pure clays as related to net particle charge under varying pH, electrolyte concentration and cation type. Eur J Soil Sci 46 , —, doi: Mackinnon, I.

Aqueous two-phase partitioning : physical chemistry and bioanalytical applications

Clays and Clay Minerals 41 , —, doi: Nadeau, P. Clay Miner 20 , —, doi: Cacace, D. Langmuir 31 , —, doi: Zhao, X. Hu, X. Langmuir 26 , —, doi: Kwon, K. Model bacterial extracellular polysaccharide adsorption onto silica and alumina: Quartz crystal microbalance with dissipation monitoring of dextran adsorption.

Environ Sci Technol 40 , —, doi: Pawar, A. Arrested coalescence in Pickering emulsions. Soft Matter 7 , —, doi: Manoharan, V. Colloidal spheres confined by liquid droplets: Geometry, physics, and physical chemistry. Solid State Commun , —, doi: Langmuir 9 , 25—28, doi: Finkle, P. The theory of emulsification. J Am Chem Soc 45 , — Pickering, S.

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J Chem Soc 91 , —, doi: Synthesis of long prebiotic oligomers on mineral surfaces. Nature , 59—61, doi: Lv, K. Photocatalytic multiphase micro-droplet reactors based on complex coacervation. Chem Commun 51 , —, doi: Aumiller, W. Interactions of macromolecular crowding agents and cosolutes with small-molecule substrates: effect on horseradish peroxidase activity with two different substrates.

The journal of physical chemistry. B , —, doi: Hud, N. VanDerVoort, P. Silylation of the silica surface a review. Meijer, J. The presence of dominant proteins derived from two main storage proteins limited the number of spots detected in gels and consequently the number of 3D spots characterized.

Aqueous Two-Phase Partitioning: Physical Chemistry and Bioanalytical Applications

The identification of the major contaminants proteins and their relative concentration depicted in the tridimensional graph represents the first stage in the selection of better strategies for the purification of products or the selection of a potential host in the development of bioprocesses. Aguilar, O. Processing of soybeans Glycine max.

Albertsson, P. Andrews, B. Asenjo, J. Is there a rational method to purify proteins? From expert systems to proteomics. Benavides J. Benavides, J. Bradford, M. Evangelista, R. Franco, T. Gasteiger, E. Walker eds.

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