Characterization of a half-molecular fragment obtained by reduction of human ?2-macroglobulin with dithiothreitol

Abstract

A half-molecular fragment of α₂-macroglobulin has been prepared by reducing and alkylating the inter-subunit disulfide bonds in the tetrameric α₂-macroglobulin molecule with 1 mM dithiothreitol (40 min) and 3 mM iodoacetamide (40 min). Further purification was made by gel chromatography and the homogeneous population of halfmolecules has been characterized by the techniques of small-angle X-ray and neutron scattering. The radii of gyration found by the two methods are 57.0 and 58.0 Å, respectively. The match point, obtained by neutron scattering from solutions with different H₂O/D₂O rations, is at 43% D₂O; the data are consistent with a particle having a higher scattering density at large distances from the particle centre. From the X-ray and neutron intensities scattered at zero angle, the specific volume was determined to be 0.73 cm³/g at+5°C and the molecular weight to be 390,000; the latter value is associated with a relatively large error due to the uncertainty in the concentration determination. Shape analysis indicates that the best-fitting scattering-equivalent threeaxial bodies are oblate shaped, with two of their axial dimensions about three to four times larger than the third one. From the volume of the best-fitting scattering-equivalent three-axial bodies, 0.72×10⁶ ų, we obtain a water content equal to 0.38 g H₂O/g protein (dry weight).