The biochemical details of the platelet surface as they relate to normal platelet function have been elucidated through study of labeled membranes from both normal platelets and those with congenitially defective function. Several cytoadhesive glycoprotein complexes which are integral components of the platelet membrane have been demonstrated to act as important receptors for extracellular matrix macromolecules. Glycoproteins Ia/IIa (collagen receptor), Ic/IIa (fibronectin receptor), and IIb/IIIa (fibrinogen receptor) belong to a family of cytoadhesive complexes called the integrins, while glycoprotein Ib/IX, the major von Willebrand receptor, has different features. These same major glycoproteins comprise all of the alloantigens and most of the autoantigens that have been characterized. Glycoprotein IIb/IIIa contains the alloantigens, PlA (Zw), Bak (Lek), and Pen (Yuk), as well as the most frequent target antigenic sites for anti-platelet autoantibodies. Because a number of platelet alloantigens were discovered independently by more than one group, nomenclature is confusing at present, although a system analogous to that used for histocompatibility antigens has been proposed. Precise identification of the antigenic epitopes has not yet been accomplished for all of the platelet antigens. Current research efforts include characterization of antigenic epitopes, elucidation of mechanisms by which platelet immunization occurs, and determination of the clinical implications of the presence of various platelet antibodies.