Groves J D, Wang L, Tanner M J
Department of Biochemistry, School of Medical Sciences, University of Bristol, Bristol BS8 1TD, UK.
Biochem J. 1998 May 15;332 ( Pt 1)(Pt 1):161-71. doi: 10.1042/bj3320161.
We examined the assembly of the membrane domain of the human red cell anion transporter (band 3; AE1) by co-expression of recombinant N- and C-terminal fragments in Xenopus oocytes and in cell-free translation with canine pancreatic microsomes. Co-immunoprecipitation was performed in non-denaturing detergent solutions using antibodies directed against the N- and C-termini of the membrane domain. Eleven of the twelve fragments were expressed stably in oocytes in the presence or absence of their respective partners. However, the fragment containing from putative span nine to the C-terminus could be detected in oocytes only when co-expressed with its complementary partner containing the first eight spans. Co-expression of pairs of fragments divided in the first, second, third and fourth exofacial loops and in the fourth cytoplasmic loop resulted in a concentration-dependent association, but a pair of fragments divided in the sixth cytoplasmic loop did not co-immunoprecipitate. When two complementary fragments were translated separately in the cell-free system and the purified microsomes were then mixed, co-immunoprecipitation was observed only if the membranes were first fused using polyethylene glycol. This shows that co-immunoprecipitation results from specific interactions within the membrane and is not an artefact of detergent solubilization or immunoprecipitation. We demonstrate that band 3 assembly can occur within the membrane after translation, insertion and initial folding of the individual fragments have been completed. We conclude that most band 3 fragments contain the necessary information to fold in the membrane and adopt a structure that is sufficiently similar to the native protein that it permits correct assembly with its complementary partner.
我们通过在非洲爪蟾卵母细胞中共表达重组N端和C端片段以及与犬胰腺微粒体进行无细胞翻译,研究了人类红细胞阴离子转运蛋白(带3;AE1)膜结构域的组装情况。在非变性去污剂溶液中,使用针对膜结构域N端和C端的抗体进行共免疫沉淀。十二个片段中的十一个在有或没有各自伴侣的情况下都能在卵母细胞中稳定表达。然而,仅当与包含前八个跨膜区的互补伴侣共表达时,才能在卵母细胞中检测到包含假定的第九跨膜区到C端的片段。将片段对分别在第一个、第二个、第三个和第四个细胞外环以及第四个细胞质环中进行划分后共表达,会导致浓度依赖性结合,但在第六个细胞质环中划分的一对片段不会共免疫沉淀。当两个互补片段在无细胞系统中分别翻译,然后将纯化的微粒体混合时,只有在首先使用聚乙二醇融合膜的情况下才能观察到共免疫沉淀。这表明共免疫沉淀是由膜内的特异性相互作用引起的,而不是去污剂溶解或免疫沉淀的假象。我们证明,带3的组装可以在翻译、单个片段插入和初始折叠完成后在膜内发生。我们得出结论,大多数带3片段包含在膜中折叠并采用与天然蛋白质足够相似的结构以允许与其互补伴侣正确组装的必要信息。