Transcription of unrearranged immunoglobulin gene segments strongly correlates with their accessibility to the V(D)J recombination machinery. The regulatory mechanisms governing this germ-line transcription are still poorly defined. In order to identify new regulatory elements, we first carried out a detailed characterization of the transcription initiation sites for the J-C germ-line transcripts, using rapid amplification of 5' cDNA ends, assisted by a template switching mechanism at the 5'-end of the RNA. Transcripts were observed that initiated heterogeneously, starting up to 293 (lambda1), 116 bp (lambda2) and 79 bp (lambda3) upstream from the respective Jlambda gene segment. Additional RT-PCR analysis revealed the existence of germ-line transcripts of lambda and also of kappa that initiate even more upstream of these transcription initiation sites, although their frequencies were low. Promoter activity was detected in vitro 5' of Jlambda2, with the minimal promoter activity mapping to the region between positions -35 and -120. In addition, computer analysis allowed the prediction of a nuclear scaffold/matrix attachment (S/MAR) region between the two J-C gene clusters at each hemi-locus. This region between the lambda1/lambda3 clusters binds to the nuclear matrix in vitro, and J-C lambda1 germ-line transcription initiates a short distance downstream from this S/MAR element.