Morgan W T, Muster P, Tatum F, Kao S M, Alam J, Smith A
Division of Molecular Biology and Biochemistry, School of Biological Sciences, University of Missouri-Kansas City 64110.
J Biol Chem. 1993 Mar 25;268(9):6256-62.
Rabbit hemopexin cDNA was cloned from a rabbit liver lambda gt11 cDNA expression library using a mixture of five monoclonal antibodies raised against rabbit hemopexin, and the entire rabbit hemopexin sequence was determined. The heme-binding domain I of rabbit hemopexin (Smith, A., and Morgan, W. T. (1984) J. Biol. Chem. 259, 12049-12053) contains only 4 histidine residues which are conserved in rabbit, human, rat, and mouse hemopexin. The 2 axial heme-iron coordinating histidine residues, identified by Edman microsequencing and amino acid analyses of chemically modified domain I and isolated fragments of domain I, are the conserved histidine residues at positions 56 and 127 of the mature rabbit protein. The epitope recognized by JEN-14 (a monoclonal antibody which specifically reacts with domain I and blocks the hemopexin-receptor interaction (Morgan, W. T., Muster, P., Tatum, F. M., McConnell, J., Conway, T. P., Hensley, P., and Smith, A. (1988) J. Biol. Chem. 263, 8220-8225) was shown to lie between residues 122 and 142 by Western blotting of protease-digested domain I and transposon-insertion mutants of domain I expressed in a plasmid vector system. The location of this epitope near the heme-binding histidine residue 127 is compatible with a transport mechanism in which the release of heme from hemopexin is accompanied by a concomitant transfer of heme to the hemopexin receptor or the membrane heme-binding protein (Smith, A., and Morgan, W. T. (1985) J. Biol. Chem. 260, 8325-8329).
利用针对兔血红蛋白的五种单克隆抗体混合物,从兔肝λgt11 cDNA表达文库中克隆出兔血红蛋白cDNA,并测定了兔血红蛋白的完整序列。兔血红蛋白的血红素结合结构域I(史密斯,A.,和摩根,W. T.(1984年)《生物化学杂志》259,12049 - 12053)仅含有4个组氨酸残基,这些残基在兔、人、大鼠和小鼠血红蛋白中是保守的。通过对化学修饰的结构域I和结构域I的分离片段进行埃德曼微量测序和氨基酸分析,确定了2个轴向血红素 - 铁配位组氨酸残基,它们是成熟兔蛋白第56和127位的保守组氨酸残基。JEN - 14(一种特异性与结构域I反应并阻断血红蛋白 - 受体相互作用的单克隆抗体(摩根,W. T.,穆斯特,P.,塔图姆,F. M.,麦康奈尔,J.,康威,T. P.,亨斯利,P.,和史密斯,A.(1988年)《生物化学杂志》263,8220 - 8225)所识别的表位,通过对蛋白酶消化的结构域I和在质粒载体系统中表达的结构域I的转座子插入突变体进行蛋白质印迹分析,显示位于第122和142位残基之间。该表位在血红素结合组氨酸残基127附近的位置,与一种运输机制相符,即血红蛋白中血红素的释放伴随着血红素同时转移到血红蛋白受体或膜血红素结合蛋白(史密斯,A.,和摩根,W. T.(1985年)《生物化学杂志》260,8325 - 8329)。
