Goetze A M, Richards J H
Proc Natl Acad Sci U S A. 1977 May;74(5):2109-12. doi: 10.1073/pnas.74.5.2109.
The binding site interactions between the phosphorylcholine (phosphocholine)-binding mouse myeloma proteins TEPC 15, W3207, McPC 603, MOPC 167, and MOPC 511 and the isotopically substituted hapten phosphoryl[methyl-13C]choline have been investigated using 13C and 31P nuclear magnetic resonance (NMR) spectroscopy. Each protein exhibits a unique NMR pattern, but extensive similarities in chemical shift parameters upon binding of hapten to immunoglobulin suggest a significant degree of conservation of important hapten-binding site interactions. Moreover, independent binding studies, in conjunction with the NMR data, allow construction of a simple model of the binding sites of these antibodies, analyzed in terms of the relative strength of interaction between hapten and two main subsites. The NMR evidence supports the view that the heavy chains of these proteins dominate in interacting with bound phosphorylcholine; the various subspecificities of these proteins for phosphorylcholine analogues can be accounted for by amino acid changes in the hypervariable regions of the heavy chains.
已使用碳-13(13C)和磷-31(31P)核磁共振(NMR)光谱法研究了磷酸胆碱结合型小鼠骨髓瘤蛋白TEPC 15、W3207、McPC 603、MOPC 167和MOPC 511与同位素取代的半抗原磷酸化[甲基-13C]胆碱之间的结合位点相互作用。每种蛋白质都呈现出独特的NMR图谱,但半抗原与免疫球蛋白结合后化学位移参数存在广泛相似性,这表明重要的半抗原结合位点相互作用在很大程度上具有保守性。此外,独立的结合研究与NMR数据相结合,使得能够构建这些抗体结合位点的简单模型,并根据半抗原与两个主要亚位点之间相互作用的相对强度进行分析。NMR证据支持这样的观点,即这些蛋白质的重链在与结合的磷酸胆碱相互作用中起主导作用;这些蛋白质对磷酸胆碱类似物的各种亚特异性可以通过重链高变区的氨基酸变化来解释。