The CCGG and GCGC sites of the human HLA-DR alpha gene are hypermethylated in human tissues (including B-lymphocytes, T-lymphocytes, muscle, brain, sperm, skin, kidney, suprarenal and mammary glands) and three B-lymphoid cell lines. Therefore, the HLA-DR alpha gene can be transcribed even though extensively methylated. The only exception to the hypermethylated state of the HLA-DR alpha gene is represented by one or both of the two HhaI sites (H1 and H2) localized in the 5' portion of the gene. Analysis of the computer-generated secondary structure of the HLA-DR alpha mRNA suggests that the H1 and H2 sites belong to a region (5'-GAGCGCCCA-3'/5'-UGAGCGCUC-3') exhibiting extensive base pairing. Therefore, unmethylation of these CG sites can contribute in preventing mCG----TG/CA changes in this region, which would lead to extensive alterations of the secondary structure of the 5' portion of the HLA-DR alpha MRNA. On the other hand, the selective pressure to maintain unaltered the methylated CG dinucleotides in the coding regions of the HLA-DR alpha gene could be due to codon restrictions, since the majority of the methylation-related CG----TG or CG----CA variations would generate aminoacid changes. Accordingly, the analysis of different HLA-DR alpha genomic sequences indicates that variations of the CpG dinucleotides occur only in the non-coding portions of the HLA-DR alpha gene.