Hsu E
Department of Biology, New York University, NY 10003, USA.
Semin Immunol. 1994 Dec;6(6):383-91. doi: 10.1006/smim.1994.1048.
The sequences of immunoglobulin (Ig) heavy chain constant (C) region genes do not appear to be well conserved in evolution. The nature of C region change was examined by comparing VH and CH segment variability in the shark, which has numerous C mu as well as VH genes. The sequence diversity among VH was found to be similar to that among C mu 1, suggesting that one Ig segment does not change faster than the other. Although the frequencies of nucleotide substitution were similar, changes in the form of insertions or deletions in loop segments occurred more often in C; the resulting loss of sequence continuity in C exons would make it more difficult to recover C region sequences by crosshybridization. Thus the C regions would seem to be less well conserved than they are. The C region sequences isolated from different animals are described, and sequence and structure are discussed with respect to functions found in mammalian Ig. It is suggested that, although fish, amphibians and reptiles have fewer Ig classes than mammals, heterogeneous gene products are in fact produced and may mediate different effector functions. A theory based on C region selection is presented to explain antibody maturation in animals with a multicluster Ig gene organization.
免疫球蛋白(Ig)重链恒定(C)区基因的序列在进化过程中似乎没有得到很好的保守。通过比较鲨鱼中VH和CH片段的变异性来研究C区变化的本质,鲨鱼有众多的Cμ以及VH基因。发现VH之间的序列多样性与Cμ1之间的相似,这表明一个Ig片段的变化速度并不比另一个快。尽管核苷酸替换的频率相似,但环段中插入或缺失形式的变化在C区更频繁发生;C外显子中由此产生的序列连续性丧失将使得通过交叉杂交恢复C区序列更加困难。因此,C区似乎比实际情况更不保守。描述了从不同动物分离的C区序列,并就哺乳动物Ig中发现的功能讨论了序列和结构。有人提出,尽管鱼类、两栖类和爬行类的Ig类别比哺乳动物少,但实际上会产生异源基因产物,并且可能介导不同的效应功能。提出了一种基于C区选择的理论来解释具有多簇Ig基因组织的动物中的抗体成熟。
