Two- and four-cell mouse embryos exhibited both Na+-dependent and Na+-independent components of zwitterionic alpha-amino acid transport, which we tentatively ascribe to the A and L amino acid transport systems, respectively. Uptake of taurine was virtually all Na+-dependent and is probably via the beta system. Na+-independent L-lysine uptake by two-cell embryos may have been via system y+. The small amount of lysine transport which was Na+-dependent (30% of the total) could not be attributed to any well known transport system and may have been due to the early ontogenetic expression of a newly described transport system which predominates in preimplantation blastocysts. We conclude that the rate of Na+-dependent amino acid transport in two-cell mouse embryos could be significantly affected in situ by changes in the [Na+] which are known to occur in oviductal fluid.