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The Journal of Immunology, Vol 146, Issue 3 1037-1046, Copyright © 1991 by American Association of Immunologists
ARTICLES |
SH Ghaffari and CJ Lobb
Department of Microbiology, University of Mississippi Medical Center, Jackson 39216-4505.
The V regions of channel catfish H chain cDNA clones have been analyzed. Based upon sequence relationships and hybridization analyses, five different groups of VH genes are identified whose definition is consistent with that of five different VH families. Genomic Southern blots indicate that as many as 100 different germ-line VH genes are likely represented by these families. The sequence diversity between identified members of these different families is similar in magnitude to the divergence represented between members of different human or mouse VH families. The FR regions are the most conserved regions when members of different catfish VH families are compared; specific amino acid positions appear to be highly conserved in phylogeny. Equally important is that diversity is represented in complementarity- determining regions CDR1 and CDR2 in members of the different families as well as in members of the same VH family. These results suggest that an extensive repertoire of VH genes can contribute to antibody diversity in this lower vertebrate. Sequence comparisons indicate that one of the catfish VH families shares considerable structural similarity to several higher vertebrate VH gene families--a relationship which suggests that this VH family may be ancestral to some VH gene families of higher vertebrates. Characteristic of the genomic organization of higher vertebrate H chains, catfish appear to have different VH families wherein a VH gene likely undergoes functional recombination with putative DH gene segments and one of apparently several different JH segments. The recombined V region is expressed with the same C region gene. These combined results suggest that bony fishes are the earliest known phylogenetic representatives to have evolved extensive V region gene families.
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