Evolution of the rat immunoglobulin gamma heavy-chain gene family.

The sequences of the four immunoglobulin gamma heavy chains of the rat (gamma 1, gamma 2a, gamma 2b, gamma 2c) have been determined. These sequences reveal that the rat genes have evolved differently from the closely related mouse gamma genes (gamma 1, gamma 2a, gamma 2b, gamma 3): in rat two of the four genes (gamma 2a and gamma 1) are 94% homologous to each other and best resemble the single mouse gamma 1 gene. Rat gamma 2b is equivalent to the mouse gamma 2a/gamma 2b pair as regards both nucleotide sequence and antibody effector functions whilst rat gamma 2c resembles mouse gamma 3. In evolutionary terms this suggests the existence of a set of three common C gamma genes before separation of rat and mouse as individual species. In addition, two independent duplication events must have occurred after species separation affecting different constant regions; this yielded rat gamma 2a and gamma 1 as a recently evolved pair and mouse gamma 2a and gamma 2b as a different pair. Furthermore, the sequence comparisons reveal several other features of interest; rat IgG2b lacks two amino acids in CH1 which are conserved in all other sequenced gamma chains. Residues believed to be essential for monocyte interaction (FcRI) are retained only in rat gamma 2b and not in the other rat gamma genes whilst a particular motif involved in C1q interaction shows a variation in both rat IgG1 and rat IgG2a which has not been observed previously.