Otsuka S, Maruyama H, Listowsky I
Biochemistry. 1981 Sep 1;20(18):5226-32. doi: 10.1021/bi00521a020.
The two subunit types of human liver ferritin were purified to homogeneity. Both subunits reassembled in a well-defined manner and formed spherical particles that resembled natural apoferritin in electron micrographs. Affinity chromatography methods were employed to obtain preparations of antibodies that interacted exclusively either with the H or with the L polypeptides, demonstrating that distinct immunological properties may be ascribed to each subunit of ferritin. The amino acid compositions of the subunits were similar, but the larger H subunit had fewer leucine, phenylalanine, and arginine residues. It is therefore improbable that H subunits undergo proteolytic processing and are precursors for L subunits. Circular dichroism data indicated that homopolymers assembled from L-type subunits had substantially more ordered secondary structures and greater alpha-helical contents than their H counterparts. Small differences in the environment of tryptophan residues were evident from fluorescence spectra of each homopolymer. In isoelectric focusing experiments reassembled H or L homopolymers migrated as families of proteins within discrete pI ranges which are probably representative of subpopulations of each subunit type. The H homopolymer focused at lower pI's than the L component. These data substantiate the contention that both subunits are authentic polypeptide moieties of ferritin with some common structural features, but the results also underscore prominent dissimilarities in their properties.
人肝脏铁蛋白的两种亚基类型被纯化至均一状态。两种亚基以明确的方式重新组装,并形成了在电子显微镜照片中类似于天然脱铁铁蛋白的球形颗粒。采用亲和层析方法获得了仅与H或L多肽相互作用的抗体制剂,这表明铁蛋白的每个亚基都具有独特的免疫特性。亚基的氨基酸组成相似,但较大的H亚基的亮氨酸、苯丙氨酸和精氨酸残基较少。因此,H亚基不太可能经历蛋白水解加工并成为L亚基的前体。圆二色性数据表明,由L型亚基组装而成的同聚物比其H型对应物具有更多的有序二级结构和更高的α-螺旋含量。从每种同聚物的荧光光谱中可以明显看出色氨酸残基环境的微小差异。在等电聚焦实验中,重新组装的H或L同聚物在离散的pI范围内作为蛋白质家族迁移,这可能代表了每种亚基类型的亚群。H同聚物聚焦在比L组分更低的pI值处。这些数据证实了两种亚基都是具有一些共同结构特征的铁蛋白真实多肽部分的观点,但结果也强调了它们在性质上的显著差异。