An electron density map of concanavalin A at 2.4-A resolution has been produced by X-ray crystallographic methods with five heavy atom derivatives. The molecule is a tetramer with all subunits identical and each containing a single polypeptide chain of 231 amino acid residues. The course of the entire backbone has been traced and three different regions of /3 structure involve about 57% of the residues. One of these /3-structure regions contains six strands of polypeptide chain and is related by a crystallographic twofold rotation axis to an additional six strands of the second c \*_>oncanavalin A (Con A1) exhibits some unusual biological properties as a result of its ability to bind various carbohydrates. It agglutinates erythrocytes from certain animal species, starch granules, and some bacteria and yeasts (Sumner and Howell, 1936a), and has been shown to precipitate various glycogens, dextrans, mannans, glycoproteins, and blood group substances (Sumner and Howell, 1936b; So and Goldstein, 1968; Leon and Young, 1970; and Lloyd et al., 1969). Carbohydrates with the minimum specificity for Con A binding contain hexose residues with the D-ara6//zo-pyranoside configuration2 at C-3, C-4, and C-5 (Goldstein et al., 1965).Con A induces transformation of lymphocytes by reversibly binding to specific sites on the cell surface (Powell and Leon, 1970; Novogrodsky and Katchalski, 1971) and inhibits phagocytosis by polymorphonuclear leucocytes (Berlin, 1972). It also agglutinates embryonic tissue cells (Moscona, 1971) and various neoplastic cells in tissue cultures (Inbar and Sachs, 1969), whereas binding sites on the corresponding adult cells and normal cells appear to be masked. Studies by Inbar et al. (1971) indicate that the site for Con A on the cell surface membrane of hamster cells has two components, one which actually binds the Con A and the other which is responsible for the agglutination.The purpose of our investigation is to determine the complete three-dimensional structure of Con A by X-ray crystallographic techniques and we report here features of the molecule, mainly the course of the polypeptide chain, subunit interactions, regions of /3 structure, the carbohydrate binding site, and the Mn2J~and Ca2^sites as interpreted from our electron density map at 2.4-A resolution.
Experimental ProcedureCon A, purified and crystallized as previously described (Hardman et a!., 1971a), was used to collect the lower resolut From the
