Use of human IgM derived fragments to study structures responsible for protein A-reactivity.

M A Vidal, F P Conde
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引用次数: 3

Abstract

The protein A-binding site of human IgM was studied by affinity chromatography on SpA-Sepharose using fragments derived from a human monoclonal SpA-reactive IgM, Iz. Neither Fabmu nor (Fc) 5mu fragments were retained on the column but IgM reactivity was unaffected by thermic treatment during proteolysis. Products intermediate between IgM and (Fc) 5mu fragments produced during shorter proteolysis showed a reactivity related to their content in Fabmu regions. On the other hand mild reduction of IgM Iz to monomeric subunits results in a dramatic loss of SpA-affinity. However these subunits, like F(ab') 2mu but unlike Fab'mu fragments, showed a significant interaction with the column. Thus, the principal requirement for SpA reactivity with IgM Iz seems to be related to the presence of Fabmu regions in a polymeric state resembling native IgM.

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利用人类IgM衍生片段研究负责蛋白a反应性的结构。
采用SpA-Sepharose亲和层析法,利用人单克隆spa -活性IgM Iz片段研究了人IgM蛋白a结合位点。Fabmu和(Fc) 5mu片段都没有保留在柱上,但在蛋白质水解过程中,IgM的反应性不受热处理的影响。在较短的蛋白质水解过程中产生的IgM和(Fc) 5mu片段之间的产物显示出与其在Fabmu区域的含量相关的反应性。另一方面,IgM - Iz对单体亚基的轻微还原会导致spa亲和力的显著丧失。然而,这些亚基,如F(ab’)2mu片段,与Fab’mu片段不同,与柱表现出显著的相互作用。因此,SpA与IgM Iz反应性的主要要求似乎与Fabmu区域在类似天然IgM的聚合状态下的存在有关。
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