Complementary DNA (cDNA) specific for gamma-globin nucleotide sequences has been prepared by hybridizing total cDNA made from cord blood messenger RNA (mRNA) as template to an excess of normal adult human globin mRNA and recovering the single-stranded cDNA from hydroxylapatite. The specificity of the gamma cDNA for gamma mRNA sequences is strongly supported by the hybridization of this cDNA at low Cot values (Co, concentration of RNA and t, time in seconds) to RNA samples containing large amounts of functional gamma globin mRNA and the lack of hybridization to RNA samples containing little, if any, gamma-globin mRNA. The absence of cross-hybridization of gamma cDNA with alpha, beta, and delta mRNAs is demonstrated by the complete hybridization of the gamma cDNA to mRNA samples completely lacking either alpha or beta and delta mRNA. An estimate of the number of gamma-globin genes in human cellular DNA was obtained by hybridization of purified gamma cDNA to DNA from spleen and white blood cells of normal and beta-thalassemia subjects and measurement of the percent of gamma cDNA hybridized at saturation. The results indicate that there are between one and two gamma-globin genes per total haploid gene DNA equivalent obtained from both normal and beta-thalassemia subjects. These values are consistent with genetic evidence for the presence of multiple gamma gene loci in human cells. The finding that the number of gamma-globin genes in beta-thalassemia DNA is similar to that in nonthalassemia DNA indicates that a deletion of gamma-globin genes cannot account for either the inadequate gamma-globin synthesis or indirectly for the decreased or absent beta-globin synthesis in beta-thalassemia cells.