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Density-contrast studies of macromolecules in solution. Cross verification of X-ray scattering and pycnometry experiments (1978)

Aggerbeck, L. ; Yates, M. ; Tardieu, A. ; [et al.]

Copenhagen : International Union of Crystallography (IUCr)

Applied crystallography online 11 (1978), S. 466-472

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ISSN: 1600-5767

Source: Crystallography Journals Online : IUCR Backfile Archive 1948-2001

Topics: Geosciences , Physics

Notes: The density-contrast method, commonly used in X-ray (and neutron) small-angle scattering studies of macromolecules in solution, can yield a wealth of information if; (a) the solute is monodisperse and the solution is ideal: (b) each macromolecule in solution has a volume associated with it inside of which the density distribution is independent of the density of the solvent. More specifically it has been pointed out that in this case an expression of the molecular weight can be obtained which does not involve the partial specific volume, provided that the X-ray experiments are performed on an absolute scale. On the other hand, it is well known that X-ray scattering experiments on an ideal solution of identical macromolecules can yield the molecular weight for any composition of the solvent, provided solute, solvent and partial specific volumes are defined and measured at constant chemical potential. Therefore a combination of X-ray scattering and densimetry experiments allows one to verify to what extent condition (b) holds true. Such a set of experiments has been performed on Rhesus monkey low-density serum lipoproteins, the solvent being water containing variable amounts of NaBr. It is concluded that in this case condition (b) is fulfilled. Moreover several important aspects of the analysis of the X-ray scattering curves can be verified.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1107/S0021889878013606

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Small-angle X-ray scattering studies of human-serum lipoproteins A (1974)

Mateu, L. ; Tardieu, A. ; Sardet, C. ; [et al.]

Copenhagen : International Union of Crystallography (IUCr)

Applied crystallography online 7 (1974), S. 180-180

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ISSN: 1600-5767

Source: Crystallography Journals Online : IUCR Backfile Archive 1948-2001

Topics: Geosciences , Physics

Notes: Human-serum low and high-density lipoproteins were studied in solution by small-angle X-ray scattering techniques in the presence of variable amounts of NaBr (used for the purpose of raising the electron density of the solvent).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1107/S0021889874009101

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Different Tools to Study Interaction Potentials in γ-Crystallin Solutions: Relevance to Crystal Growth (1997)

Bonneté, F. ; Malfois, M. ; Finet, S. ; [et al.]

Copenhagen : International Union of Crystallography (IUCr)

Acta crystallographica 53 (1997), S. 438-447

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ISSN: 1399-0047

Source: Crystallography Journals Online : IUCR Backfile Archive 1948-2001

Topics: Chemistry and Pharmacology , Geosciences , Physics

Notes: Osmotic pressure, small-angle X-ray scattering and quasi-elastic light scattering were used to study the medium-range interaction potentials between macromolecules in solution. These potentials determine macromolecular crystallization. Calf eye lens γ-crystallins were used as a model system with the charge, and therefore the interactions, varied with pH. The second virial coefficient was determined under the same conditions with each of the three techniques. Osmotic pressure and quasi-elastic light scattering can be used conveniently in the laboratory to rapidly test the type of interactions (either attractive or repulsive) present in the solution. The measurement is direct with osmotic pressure, whereas with quasi-elastic light scattering, the directly measured coefficient is a combination of thermodynamic and hydrodynamic terms. X-rays, which require more sophisticated equipment such as synchrotron radiation facilities, can provide more detailed information on the interparticle potentials when models are used. At low ionic strength, two potentials were found necessary to account for the temperature and pH phase diagram as a function of protein concentration. The first potential is the van der Waals attractive potential that was previously shown to account for the fluid-fluid phase separation at low temperature. The second potential is an electrostatic coulombic repulsive potential which is a function of the protein charge and thus of the pH. The interaction trail could be followed at protein concentrations as low as 10 mg ml−1. The results as a whole are expected to be valid for all compact low molecular weight proteins at low ionic strength.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1107/S090744499700200X

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