Electron microscopy of seed-storage globulins.

The quaternary structures of a range of seed globulins, including examples of both the so-called 7 S and 11 S types, have been examined by electron microscopy. The legume 7 S proteins, phaseolin (bean), beta-conglycinin (soybean), and vicilin (pea), appear as flat discs of diameter ca. 8.5 nm and thickness ca. 3.5 nm formed by association of three subunit domains. Phaseolin converts to an 18 S tetramer at acid pH, and images recorded under these conditions suggest that four of the 7 S protomer discs associate to form the faces of a regular tetrahedron. The classical 11 S seed globulins, cucurbitin (pumpkin) and legumin (pea), are approximately spherical molecules of diameter ca. 8.8 nm composed of six subunits. In contrast, the hexameric 10 S storage protein from lupin seed, conglutin gamma, appears toroidal in shape with outer diameter ca. 10.3 nm and thickness ca. 2.2 nm. These results indicate that constraints imposed on seed proteins by their role in sustaining the germinating plant may have allowed a variety of different globulin structures to accumulate in the protein-storage bodies of seeds.