THE 3-DIMENSIONAL STRUCTURE OF CANAVALIN FROM JACK-BEAN (CANAVALIA-ENSIFORMIS)

The three-dimensional structure of the vicilin storage protein canavalin, from Canavalia ensiformis, has been determined in a hexagonal crystal by x-ray diffraction methods. The model has been refined at 2.6 angstrom resolution to an R factor of 0.197 with acceptable geometry. Because of proteolysis, 58 of 419 amino acids of the canavalin polypeptide are not visible in the electron density map. The canavalin subunit is composed of two extremely similar structural domains that reflect the tandem duplication observed in the cDNA and in the amino acid sequence. Each domain consists of two elements, a compact, eight-stranded beta-barrel having the ''Swiss roll'' topology and an extended loop containing several short alpha-helices. The root mean square deviation between 84 pairs of corresponding C(alpha) atoms making up the strands of the two beta-barrels in a subunit is 0.78 angstrom, and for 112 pairs of structurally equivalent C(alpha) atoms of the two domains the deviation is 1.37 angstrom. The interface between domains arises from the apposition of broad hydrophobic surfaces formed by side chains originating from one side of the beta-barrels, supplemented by at least four salt bridges. The interfaces between subunits in the trimer are supplied by the extended loop elements. These interfaces are also composed primarily of hydrophobic residues supplemented by six salt bridges. The canavalin subunits have dimensions about 40 x 40 x 86 angstrom, and the oligomer is a disk-shaped molecule about 88 angstrom in diameter with a thickness of about 40 angstrom. The distribution of domains lends a high degree of pseudo-32-point group symmetry to the molecule. There is a large channel of 18 angstrom diameter, lined predominantly by hydrophilic and charged amino acids, running through the molecule along the 3-fold axis. The majority of residues conserved between domains and among vicilins occur at the interface between subunits but appear otherwise arbitrarily distributed within the subunit, although predominantly on its exterior.