DNA analysis of the immunoglobulin IGHG loci in a Mandenka population from eastern Senegal: Correlation with Gm haplotypes and hypotheses for the evolution of the Ig CH region

This study presents restriction fragment length polymorphism (RFLP) and serological analyses of the immunoglobulin CH loci in a sample of 100 individuals from a Senegalese Mandenka population. The RFLP variability is mostly the result of large DNA insertions or deletions in the non-coding flanking regions of the IGHG genes, and to variable number of tandem repeat-like patterns within their 5'-switch sequences. However, part of the IGHG3 polymorphism also corresponds to a variable number of exons coding for the flexible hinge segment of the IgG3 antibody (the 4-exon and 3-exon forms, and a newly described 2-exon form). This diversity presents relevant associations with Gm haplotypes, suggesting that molecular rearrangements of the G3 hinge are related to the evolution of the Gm polymorphism. Non-significant correlation coefficients are found between Gm haplotypes and A(2)m alleles in the Mandenka, indicating that these loci may have reached equilibrium through recombination. The effect of recombination on linkage disequilibrium is more generally revealed, across the Ig CH genomic region, by a significant decrease of D' values with increasing physical distances between the loci on the chromosome

The IGHG3 gene shows a structural polymorphism characterized by different hinge lengths: Sequence of a new 2-exon hinge gene

Four of the five human IGHG genes (G1, GP, G2, and G4) display a hinge region consisting of a unique exon. In contrast, IGHG3 exhibits a different structure in which the hinge is constituted by four or, less frequently, three exons. We report here the nucleotide sequence of a new 2-exon hinge G3 gene found in a Mandenka individual from Eastern Senegal. A comparison of this sequence with that of 4-exon and 3-exon hinge G3 genes suggests that the 3-exon and 2-exon hinge forms arose independently by deletion events in a 4-exon hinge gene

The IGHG3 gene shows a structural polymorphism characterized by different hinge lengths: Sequence of a new 2-exon hinge gene

Four of the five human IGHG genes (G1, GP, G2, and G4) display a hinge region consisting of a unique exon. In contrast, IGHG3 exhibits a different structure in which the hinge is constituted by four or, less frequently, three exons. We report here the nucleotide sequence of a new 2-exon hinge G3 gene found in a Mandenka individual from Eastern Senegal. A comparison of this sequence with that of 4-exon and 3-exon hinge G3 genes suggests that the 3-exon and 2-exon hinge forms arose independently by deletion events in a 4-exon hinge gene