Shinkai Y, Nakauchi H, Honjo T, Okumura K
Department of Immunology, Juntendo University School of Medicine, Tokyo, Japan.
Immunogenetics. 1988;27(4):288-92. doi: 10.1007/BF00376124.
To clarify the allotypic difference of the IgE antibody molecule, we determined the complete nucleotide sequence of the genes encoding the constant portion of mouse IgE of a (BALB/c) as well as b (B10.A) allotypes. A comparison of the sequences revealed that there were 12 single-base changes: 2 single-base changes in CH1 and CH2, 3 in CH3, and 7 in CH4. Five of them were silent changes, but seven resulted in amino acid substitutions. Although the silent changes are scattered through CH1 to CH4, the nonsilent substitutions were found only in CH3 (two substitutions) and CH4 (five). The allotypic determinant(s) that conventional antisera detect most likely reflects an amino acid difference(s) in CH3 and/or CH4.
为了阐明IgE抗体分子的同种异型差异,我们测定了编码a(BALB/c)和b(B10.A)同种异型小鼠IgE恒定区基因的完整核苷酸序列。序列比较显示有12个单碱基变化:CH1和CH2中有2个单碱基变化,CH3中有3个,CH4中有7个。其中5个是沉默变化,但7个导致了氨基酸替换。尽管沉默变化分散在CH1至CH4中,但非沉默替换仅在CH3(两个替换)和CH4(五个)中发现。传统抗血清检测到的同种异型决定簇很可能反映了CH3和/或CH4中的氨基酸差异。