A Physicochemical and Mutational Analysis of Intersubunit Interactions of Escherichia coli Ferritin A

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• 作者：Hideaki Ohtomo ; Mio Ohtomo ; Daisuke Sato ; Atsushi Kurobe ; Ayumi Sunato ; Yoshitaka Matsumura ; Hiroshi Kihara ; Kazuo Fujiwara ; Masamichi Ikeguchi
• 刊名：Biochemistry
• 出版年：2015
• 出版时间：October 13, 2015
• 年：2015
• 卷：54
• 期：40
• 页码：6243-6251
• 全文大小：525K
• ISSN：1520-4995

文摘

Ferritin A from Escherichia coli (EcFtnA) is 24-meric protein, which forms spherical cagelike structures called nanocages. The nanocage structure is stabilized by the interface around 4-, 3-, and 2-fold symmetric axes. The subunit structure of EcFtnA comprises a four-helix bundle (helices A鈥揇) and an additional helix E, which forms a 4-fold axis. In this study, we examined the contribution of the interface around three symmetric axes. pH-induced dissociation experiments monitored by analytical ultracentrifugation and small-angle X-ray scattering showed that the dimer related by 2-fold symmetry is the most stable unit. Mutations located near the 3-fold axis revealed that the contribution of each interaction was small. A mutant lacking helix E at the 4-fold axis formed a nanocage, suggesting that helix E is not essential for nanocage formation. Further truncation of the C-terminus of helix D abrogated the formation of the nanocage, suggesting that a few residues located at the C-terminus of helix D are critical for this process. These properties are similar to those known for mammalian ferritins and seem to be common principles for nanocage formation. The difference between EcFtnA and mammalian ferritins was that helix E-truncated EcFtnA maintained an iron-incorporating ability, whereas mammalian mutants lost it.