Marsupials are a distinct lineage of mammals notable for giving birth to highly altricial (relatively less developed) young. The recent discovery of a unique TCR chain in marsupials, TCRmu, raises questions about its possible role in early development. Here we compare the timing of V(D)J recombination and appearance of TCRmu transcripts relative to the conventional TCRalpha, beta, gamma, and delta mRNA during postnatal development in the opossum. There are two TCRmu transcript isoforms, TCRmu1.0 and TCRmu2.0. TCRmu1.0, which uses prejoined V(D)J segments, is detectable as early as day 1, when the thymus is primarily undifferentiated epithelium. The other isoform, TCRmu2.0, which requires V(D)J recombination and contains an unusual double V configuration, is not detectable until day 13 when the thymus is histologically mature. Surprisingly, we were able to detect TCRalpha, beta, and delta mRNA transcribed from loci that had completed V(D)J recombination as early as day 1 as well. At this early age there is apparent evidence for preference in the V segments used in the TCRalpha and beta genes. In the case of Valpha this preference appears to be associated with position in the TCRalpha/delta locus. In Vbeta, however, preference may be due to the use of microhomology in the V, D, and J segments. Mature TCRgamma transcripts were not detected until day 8, suggesting that, in contrast to eutherian mammals, in the opossum alphabeta T cell development precedes gammadelta T cell development. The results support that there may be differences in T cell subset development between marsupials and placental mammals.