Multiple espilon subunits are major determinants of the diversity of the N-methyl-D-aspartate (NMDA) receptor channel. The four epsilon subunit mRNAs exhibit distinct expression patterns in the brain. In an attempt to elucidate the molecular basis of selective and characteristic expression of the NMDA receptor channel subunits, we have isolated the gene encoding the mouse NMDA receptor epsilon 3 subunit and have determined its structural organization. The epsilon 3 subunit gene spans 17.5 kb and consists of 14 exons. The major transcription start site is 439 bp upstream of the ATG initiation codon as determined by primer extension and S1 nucleas protection analyses. Two polyadenylation sites are 397 (or 398) and 402 bp downstream of the termination codon. The 5'-flanking region of the epsilon 3 subunit gene contains GC-rich segments including consensus sequences for binding of the transcription factors Spl and EGR-1. The murine chromosomal locations of the five NMDA receptor channel subunits, the epsilon 1 (Grin2a), epsilon 2 (Grin2b), epsilon 3 (Grin2c), epsilon 4 (Grin2d) and zeta 1 (Grinl) subunits, were determined using an interspecific backcross mapping panel derived from crosses of [(C57BL/6JxM. spretus) F1xC57BL/6J] mice. Each of these genes mapped to a single chromosome location. The mapping results assigned the five loci to five different mouse autosomes, indicating that they have become well dispersed among mouse chromosomes.