We analyzed the sequences required for transcription of the mouse beta-major-globin gene by introducing deletion and linker scanning mutations into the 5'-flanking region and then studying the effects of these mutations on beta-globin gene transcription in a HeLa cell transient expression assay or after stable introduction into mouse erythroleukemia cells. Consistent with earlier studies, we found that three distinct regions upstream from the RNA capping site are required for efficient beta-globin gene transcription in HeLa cells: the ATA box located 30 base pairs upstream from the mRNA capping site (-30), the CCAAT box located at -75, and the distal sequence element CCACACCC located at -90. In the ATA and CAAT box regions, the sequences necessary for efficient transcription extend beyond the limits of the canonical sequences. Mutations in the sequences located between the three transcriptional control elements do not significantly affect transcription in HeLa cells. Although the promoter defined in HeLa cell transfection experiments is also required for efficient transcription in mouse erythroleukemia cells, none of the mutations tested affects the regulation of beta-globin gene transcription during mouse erythroleukemia cell differentiation. Thus, DNA sequences downstream from the mRNA cap site appear to be sufficient for the regulation of beta-globin gene expression during the differentiation of mouse erythroleukemia cells in culture.