Human B cell-negative severe combined immunodeficiency (B-SCID) is a primary immunodeficiency disease characterized by both T and B lymphocytopenia and agammaglobulinemia. Although lymphocytes of B-SCID patients express defective recombinase activity and rarely succeed in making Ag receptors, the molecular defect of the human B-SCID remains to be identified. To gain more insight into the human B-SCID defect and its effect on the Ab repertoire, we examined the Ig heavy (H) chain genes of the peripheral blood leaky B cells from three B-SCID patients. Although the number of B cells in their peripheral blood was very limited, we could obtain 41 productive VDJ recombinations from the 58 joints. The recombinations showed a grossly altered pattern characterized by short N nucleotides, short deleted nucleotides from 5' JH segments, immature JH and D segment utilization, absence of VDDJ recombination, and all but one JH segment equal to germline JH segments. Therefore, Ab repertoire of IgH chain gene in human B-SCID was limited because of restricted junctional and combinatorial diversity and few somatic mutations. Furthermore, unusually long P nucleotides were inserted in junctional sequences, which might indicate that resolution of hairpin is impaired in human B-SCID as in the murine SCID.