I. Kacskovics et Je. Butler, THE HETEROGENEITY OF BOVINE IGG2 .8. THE COMPLETE CDNA SEQUENCE OF BOVINE IGG2A (A2) AND AN IGG1, Molecular immunology, 33(2), 1996, pp. 189-195
The complete cDNA sequences of two bovine IgGs were obtained by RT-PCR
cloning. The first-strand cDNA was prepared from an animal homozygous
(A2/A2) for IgG2a; the resulting sequences of the two bovine IgGs rep
orted here were identified as IgG2a(A2) and IgG1. These sequences, and
their deduced amino acid sequences, are compared to the previously re
ported partial protein sequences of IgG2a(A2) and IgG2(A1), two genomi
c DNA sequences of IgG2a and one genomic DNA sequence of IgG1. Data sh
ow that the two IgG2a allotypes (A1 and A2) differ in four regions: (a
) region I-the site of the L-H bond in CH1; (b) region II-the middle h
inge; (c) region III-a seven amino acid region at the beginning of the
intradomain loop in CH3; and (d) region IV-an Arg-to-Glu exchange at
the end of the same intradomain loop. The A1 allotype, which so remark
ably distinguishes these allotypic variants, must result from differen
ces in regions III and IV. The IgG1 sequence differs in the hinge regi
on from the sequence reported previously and may represent an allotypi
c variant. We found no evidence to support the hypothesis that similar
ities between the CH3 domains of IgG2a(A2) and IgG1 result from gene c
onversion in the C-region of the bovine heavy chain locus.