心脏肌浆网膜磷蛋白的交联结构表征。

E F Young, M J McKee, D G Ferguson, E G Kranias
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引用次数: 14

摘要

利用光敏异双功能交联剂(可切割和不可切割)和常见的蛋白质修饰剂,研究了磷脂蛋白在心脏肌浆网膜中的天然形式。将光敏异双功能可切割交联剂4-叠氮苯基- 1,4 -二硫代丁基酸乙酯用于天然SR囊泡中,并将磷蛋白交联成明显的磷蛋白-磷蛋白二聚体,并形成约110,000个da物种。磷二聚体在十二烷基硫酸钠-聚丙烯酰胺凝胶上以大约12,000 Da的速度迁移,在电泳前的交联剂切割后二聚体消失。在电泳之前,在十二烷基硫酸钠中煮沸对大约110,000-Da交联的物种没有影响。这种交联形式的磷蛋白迁移在Ca2(+)- atp酶上方约5500 Da,使用荧光素5'-异硫辛酸(一种特异性结合Ca2(+)- atp酶的荧光标记物)来观察。对叠氮苯酰溴、碘乙酸和n -乙基马来酰亚胺都能与巯基反应,它们也被用来进一步表征天然肌浆网膜中的磷蛋白。在十二烷基硫酸钠-聚丙烯酰胺凝胶上观察到,与对叠氮苯酰溴交联只产生单体和二聚体形式的磷蛋白。发现碘乙酸和n -乙基马来酰胺只有在与十二烷基硫酸钠溶解的肌浆网反应时才能有效地破坏磷的五聚体形式。鉴于这些发现,对磷蛋白的氨基酸序列进行了检查,以寻找可能的蛋白质-蛋白质相互作用位点。亲水性分析和二级结构预测表明,氨基酸1-14区可能形成一个两亲性α螺旋,其中一个位点的疏水表面可能与另一个蛋白质(如Ca2(+)- atp酶)的互惠疏水表面相互作用。
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Structural characterization of phospholamban in cardiac sarcoplasmic reticulum membranes by cross-linking.

The native form of phospholamban in cardiac sarcoplasmic reticulum membranes was investigated using photosensitive heterobifunctional cross-linkers, both cleavable and noncleavable, and common protein modifiers. The photosensitive heterobifunctional cleavable cross-linker ethyl 4-azidophenyl-1, 4-dithiobutyrimidate was used in native SR vesicles and it cross-linked phospholamban into an apparent phospholamban-phospholamban dimer and into an approximately 110,000-Da species. The phospholamban dimer migrated at approximately 12,000 Da on sodium dodecyl sulfate-polyacrylamide gels, and upon cleavage of the cross-linker before electrophoresis the dimer disappeared. The approximately 110,000-Da cross-linked species was not affected by boiling in sodium dodecyl sulfate prior to electrophoresis. This cross-linked form of phospholamban migrated approximately 5500 Da above the Ca2(+)-ATPase, which was visualized using fluorescein 5'-isothiocynate, a fluorescent marker that binds specifically to the Ca2(+)-ATPase. p-Azidophenacyl bromide, iodoacetic acid, and N-ethylmaleimide, all of which react with sulfhydryl groups, were also employed to further characterize phospholamban in native sarcoplasmic reticulum membranes. Cross-linking with p-azidophenacyl bromide resulted in only monomeric and dimeric forms of phospholamban as observed on sodium dodecyl sulfate-polyacrylamide gels. Iodoacetic acid and N-ethylmalemide were found to be effective in disrupting the pentameric form of phospholamban only when reacted with sodium dodecyl sulfate solubilized sarcoplasmic reticulum. In view of these findings, the amino acid sequence of phospholamban was examined for possible protein-protein interaction sites. Analysis by hydropathic profiling and secondary structure prediction suggests that the region of amino acids 1-14 may form an amphipathic alpha helix and the hydrophobic surface on one of its sites could interact with the reciprocal hydrophobic surface of another protein, such as the Ca2(+)-ATPase.

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