C Boccazzi scite author profile

Immunoglobulin (Ig) allotype typing is usually performed with serological methods based on hemagglutination inhibition. The recent development of molecular techniques has allowed the molecular typing of several Ig markers. The hinge, CH2, and CH3 domains of the G2 gene from six unrelated individuals (three G2m(n+) and three G2m(n-)) were amplified and cloned to establish the molecular basis of the G2mn+ and G2mn- . Comparison of the allele sequences revealed three changes: two (codons 308 and 437) are silent exonic substitutions, one is a G to A transition corresponding to an amino acid difference in position 282: Val (GTG) in G2mn- , Met (ATG) in G2mn+ . These substitutions were identified via two approaches: 282 polymorphism, after digestion of a specific polymerase chain reaction product with Nla III followed by acrylamide electrophoresis; 308 and 437, by a dot-blot technique using allele-specific oligonucleotides. These molecular typing results correspond exactly to those obtained serologically; moreover, the three substitutions defining the G2mn+ and G2mn- alleles are always associated in a strict linkage disequilibrium.

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New types of multiple and single gene deletions in the humanIgCH locus

Bottaro

et al. 1989

Immunogenetics

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The locus for human immunoglobulin heavy chain constant region genes (IgCH) is characterized by a significant frequency of deleted or duplicated haplotypes, due to unequal crossing-over events. Four types of deletions and one duplication have been reported so far. We describe here a molecular study of four cases of IgCH deletions. Two of the three types of deletions are reported here for the first time. Analysis of genetic markers associated with the deleted haplotypes pointed to the independent origin of similar deletions and the involvement of intergenic sequences in the mispairing-recombination process. The reduced or absent transcription of the C gamma 4 gene in two C gamma 2-deleted haplotypes offers an insight into the requirements for the isotype switch mechanism.

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Variability of the immunoglobulin heavy chain constant region locus: a population study

et al. 1995

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The Immunoglobulin Heavy chain Constant region (IGHC) locus is a multigene family composed of highly homologous segments often involved in unequal crossings over that lead to deleted and duplicated haplotypes. The frequencies of these haplotypes in 558 individuals from Lombardy, Veneto, Puglia and Sardinia were determined by Pulsed Field Gel Electrophoresis (PFGE), followed by Southern blotting with four IGHC probes, and compared with those observed in 110 subjects from Piedmont. Twenty deletions and 60 duplications were characterized, all in heterozygous individuals except for 2 homozygous deletions. The differences in frequency between the five populations were not significant. The deletions/duplications involved one or more genes: GP-A2, A1-E and G4 duplications, and A1-E and GP-A2 deletions were the most common. Four new duplications are described: three, involving the genes from GP to A2, from G2 to G4, and G4, are counterparts of known deletions. The fourth duplication spans from GP to G2. A G1 deleted heterozygous individual never previously described in Italy is reported. All the rearranged haplotypes seem to be the result of unequal crossing over. The difference between the number of duplications and deletions was significant in Sardinia, Lombardy, Puglia and in the total of 668 subjects (P < 0.001). This may be due to selection or genetic drift.

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Molecular characterization of immunoglobulin G4 gene isoallotypes

Brusco¹,

Saviozzi²,

Cinque³

et al. 1998

European Journal of Immunogenetics

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The molecular bases of classical serological immunoglobulin allotypes are progressively uncovered through detailed characterization of the relevant genes. Here we describe two isoallotypic determinants of the G4 gene. In the first, Leu 309, as in G1 and G3, is changed to Val, as in G2; studies on myeloma proteins have long assigned the immunologically defined nG4 m(a)/(b) to the same position. The two molecular variants, here called IGHG4*L309 and IGHG4*V309, are allelic in IGHC haplotypes with a single G4 gene, but can be found together in cis in G4-duplicated haplotypes. A second isoallotypic variant was found at codon 409, where either Arg, as in G1 and G3, or Lys, as in G2, can be found. Both isoallotypes are associated with several 'silent isoallotypic' substitutions dispersed through the hinge, CH2 and CH3 domains. This suggests segmental gene conversion as the common mechanism of origin.

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Molecular characterization of immunoglobulin G4 gene isoallotypes

Brusco¹,

Saviozzi²,

Cinque³

et al. 1998

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C Boccazzi

Molecular characterization of G2m(n+) and G2m(n−) allotypes

New types of multiple and single gene deletions in the humanIgCH locus

Variability of the immunoglobulin heavy chain constant region locus: a population study

Molecular characterization of immunoglobulin G4 gene isoallotypes

Molecular characterization of immunoglobulin G4 gene isoallotypes

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