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Genomic and functional characterization of the diverse immunoglobulin domain-containing protein (DICP) family.


ABSTRACT: A heretofore-unrecognized multigene family encoding diverse immunoglobulin (Ig) domain-containing proteins (DICPs) was identified in the zebrafish genome. Twenty-nine distinct loci mapping to three chromosomal regions encode receptor-type structures possessing two classes of Ig ectodomains (D1 and D2). The sequence and number of Ig domains, transmembrane regions and signaling motifs vary between DICPs. Interindividual polymorphism and alternative RNA processing contribute to DICP diversity. Molecular models indicate that most D1 domains are of the variable (V) type; D2 domains are Ig-like. Sequence differences between D1 domains are concentrated in hypervariable regions on the front sheet strands of the Ig fold. Recombinant DICP Ig domains bind lipids, a property shared by mammalian CD300 and TREM family members. These findings suggest that novel multigene families encoding diversified immune receptors have arisen in different vertebrate lineages and affect parallel patterns of ligand recognition that potentially impact species-specific advantages.

SUBMITTER: Haire RN 

PROVIDER: S-EPMC3351558 | biostudies-literature | 2012 May

REPOSITORIES: biostudies-literature

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Genomic and functional characterization of the diverse immunoglobulin domain-containing protein (DICP) family.

Haire Robert N RN   Cannon John P JP   O'Driscoll Marci L ML   Ostrov David A DA   Mueller M Gail MG   Turner Poem M PM   Litman Ronda T RT   Litman Gary W GW   Yoder Jeffrey A JA  

Genomics 20120221 5


A heretofore-unrecognized multigene family encoding diverse immunoglobulin (Ig) domain-containing proteins (DICPs) was identified in the zebrafish genome. Twenty-nine distinct loci mapping to three chromosomal regions encode receptor-type structures possessing two classes of Ig ectodomains (D1 and D2). The sequence and number of Ig domains, transmembrane regions and signaling motifs vary between DICPs. Interindividual polymorphism and alternative RNA processing contribute to DICP diversity. Mole  ...[more]

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