PHYLOGENETICALLY ASSOCIATED RESIDUES WITHIN THE VHIII SUBGROUP OF SEVERAL MAMMALIAN SPECIES: EVIDENCE FOR A "PAUCI-GENE" BASIS FOR ANTIBODY DIVERSITY

doi:10.1084/jem.138.2.410

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PHYLOGENETICALLY ASSOCIATED RESIDUES WITHIN THE V_HIII SUBGROUP OF SEVERAL MAMMALIAN SPECIES : EVIDENCE FOR A "PAUCI-GENE" BASIS FOR ANTIBODY DIVERSITY

J. Donald Capra ¹, Richard L. Wasserman ¹, and J. Michael Kehoe ¹

¹ From the Department of Microbiology, Mount Sinai School of Medicine of the City University of New York, New York 10029

Immunoglobulin heavy chains from IgG pools of several mammalianspecies have been subjected to Edman degradation on an automatedprotein sequencer. The percentage of unblocked vs. blocked heavychains was estimated from the yield of the invariant valinein the second position. Further analysis of these unblockedpolypeptides unequivocally placed them in the V_HIII subgroupon the basis of homology with known human heavy chain sequences.

Themammals studied could be divided into three distinct categorieson the basis of the distribution of the V_HIII subgroup. In severalspecies the V_HIII subgroup could not be detected while, in others,virtually all of the heavy chains belonged to this subgroup.Several species had intermediate amounts with the level of theV_HIII subgroup restricted to between 19 and 29% of the totalpool. Within experimental error, all members of a given orderhad a similar V_HIII subgroup distribution.

Further amino acidsequence studies illustrated a high degree of structural homogeneityin the heavy chains of IgG isolated from pooled sera of a numberof mammalian species. The very close amino acid sequence homologiesof the amino terminal 24 residues of the various pools corroboratedconclusions previously obtained using several myeloma proteinsfrom some of these same species. In particular, certain phylogeneticallyassociated residues were identifiable at characteristic positionsin the pools in confirmation of their identification in themyeloma proteins. The simplest assumptions would suggest thatthese findings are more compatible with a pauci-gene than amulti-gene basis for the generation of antibody diversity.

Submitted on March 28, 1973

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