Interspecific and intergeneric grafts of Cucurbitaceae were used to study the mobility of structural P-proteins in the phloem. When Cucumis sativus L. scions were grafted onto Cucurbita rootstocks, at least nine additional proteins appeared on sodium dodecyl sulfate-polyacrylamide electrophoresis gels of scion exudate, 9-11 d after grafting. These proteins corresponded exactly to those of the, respective Cucurbita sp. rootstock, including the filament-forming phloem protein PPI and the phloem lectin PP2, as shown by the apparent molecular weights and peptide maps. According to probing at three sites, the additional proteins were evenly distributed within the scion. The appearance of additional proteins was correlated with the establishment of phloem bridges across the graft union. The developmental coincidence establishes that the structural proteins or their precursors are translocated in the phloem. This translocation was a universal phenomenon in Cucurbitaceae as shown by a comparative screening: for additional proteins in eleven graft combinations, using Benincasa hispida (Thunb.) Cogn., Citrullus colocynthis (L.) Schrad., Cucumis melo L, C. sativus, Cucurbita ficifolia Bouche, Cucurbita maxima Duchesne ex Lam., and Trichosanthes cucumerina var. lobata Roxb. According to this screening, the direction of transmission of additional proteins depended upon the combination tested. While some graft partners failed to show exchange, some behaved as "donor" for additional proteins and still others could be both "donor" or "acceptor". However, whether used as scion or stock, C. sativus was consistently identified as an acceptor. The occurrence of additional proteins in heterografts is discussed with regard to the transport mechanism of structural P-proteins in the phloem and its relationship to assimilate transport.