Gene segments encoding membrane domains of the human immunoglobulin gamma 3 and alpha chains.

International audienceThe carboxyterminal region of the heavy chains, according to its hydrophilic or hydrophobic properties, determines whether the immunoglobulin will be secreted or membrane-bound. We have determined the nucleotide sequences of the human IGHG3, IGHA1, and IGHA2 membrane exons isolated from genomic DNA libraries. The IGHG3 M1 and M2 exons are separated by a long intron of 2.1 kilobases (kb) containing an highly repeated motif of 34 base pairs (bp). The IGHA1 and IGHA2 genes, like the mouse Igh-A gene, have a single exon encoding the extracellular, transmembrane, and cytoplasmic regions. For each class of immunoglobulins, the sequences of membrane exons are highly conserved between human and mouse, but no alignment is possible for the flanking regions. In contrast, for a same species, the sequences of the heavy chain membrane exons differ from one class to another. While the hydrophobic profile of the membrane core is well conserved, the cytoplasmic region differs in length and in composition. None of the intracellular domains presents the sequence implied in signal transduction, implying that membrane immunoglobulins need other proteins, which probably interact with the constant or membrane domain, to transmit signals leading to B-cell activation

A rare genetic variant of the T cell receptor gamma joining segment TRGJI.

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Localization of the human T-cell receptor gamma locus (TCRG) to 7p14→p15 by in situ hybridization

International audienceThe human T cell receptor gamma locus (TCRG) has previously been localized on chromosome 7 at band 7p15. In situ hybridization of a TCRG-specific probe allowed us to map the locus at 7p14----p15. These data confirm the previous localization and are in agreement with the molecular characterization of an inversion of chromosome 7, inv(7) (p14q35) which involves the TCRG locus

BamHI and SacI RFLPs of the human immunoglobulin IGHG genes with reference to the Gm polymorphism in African people. Evidence for a major polymorphism.

International audienceIn this paper, we extend the study of the IGHG gene RFLPs in black African persons and in some other individuals characterized by a Negroid admixture. We demonstrate a polymorphism that is much more important in black Africans, than in Caucasoids, mainly for the IGHG3 and G1 genes, the most 5' members of the IGHG multigene family. These genes encode for the IgG3 and IgG1 subclasses, which are of crucial biological importance

IG and TR single chain fragment variable (scFv) sequence analysis: a new advanced functionality of IMGT/V-QUEST and IMGT/HighV-QUEST

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The immunoglobulin lambda-like gene cluster (14.1, 16.1 and F lambda 1) contains gene(s) selectively expressed in pre-B cells and is the human counterpart of the mouse lambda 5 gene.

International audienceA human immunoglobulin (Ig)-related gene, covering approximately 8 kb, was isolated from a cosmid genomic library, by hybridization with a C lambda probe and with a lambda-like probe. This gene was identified as 14.1 It belongs to the human lambda-like cluster which is composed of three genes (14.1, 16.1 and F lambda 1) that do not rearrange. Sequence data indicate that 14.1 is organized similarly to the mouse lambda 5 gene. It contains three exons with lengths of 69, 38, and 106 codons as compared with 65, 38, and 106 for exons 1, 2, and 3 of mouse lambda 5, respectively. The corresponding homology values were 61, 66 and 75.5%. Using a 14.1 specific probe containing exon 1, we showed that this gene was selectively expressed in human pre-B cell lines. It is likely to encode a 213-amino acid lambda-like light chain that would associate with mu chains and play an important role in the early steps of B cell differentiation