2026-04-08 京都産業大学
図 1.今回の方法では、生体膜上の本来の膜タンパク質の構造が得られるのに対して、従来の界面活性剤による精製過程を経る方法では、膜タンパク質の本来の構造状態が失われたり、人工的な二量体構造が生成されることもある。
<関連情報>
- https://www.kyoto-su.ac.jp/news/news-002814.html
- https://www.kyoto-su.ac.jp/mt_uploads/20260408_press01.pdf
- https://www.nature.com/articles/s41467-026-70578-x
哺乳類ミトコンドリア内膜における呼吸鎖スーパーコンプレックスおよびATP合成酵素オリゴマーの構造 Structures of respiratory supercomplexes and ATP synthase oligomers in mammalian mitochondrial inner membrane
Atsuki Nakano,Takahiro Masuya,Shinsuke Akisada,Moe Ishikawa-Fukuda,Kaoru Mitsuoka,Hideto Miyoshi,Masatoshi Murai & Ken Yokoyama
Nature Communications Published:17 March 2026
DOI:https://doi.org/10.1038/s41467-026-70578-x Unedited version
Abstract
Understanding the functional mechanisms of membrane protein complexes requires structural analysis within their native membrane environment. Here, we applied cryo-electron microscopy to determine the structures of FoF1 ATP synthase and respiratory supercomplexes (SCs) on sub-mitochondrial particles (SMPs) isolated from bovine heart mitochondria. Most FoF1 complexes were observed as dimers stabilized by the regulatory factor IF₁, and a tetrameric assembly comprising two FoF1–IF₁ dimers arranged linearly was also identified. This finding indicates that the tetrameric units of FoF1 are present in the mitochondrial inner membrane and contribute to shaping cristae tips in mammalian mitochondria. Fo domain maps resolve the e-subunit– c₈-ring interface and show no discrete density for a tightly bound lipid within the c₈-ring. In addition to the previously reported SCs compositions CI₁CIII₂CIV₁ and CI₁CIII₂CIV₂, our analysis identified an additional assembly with the composition CI₁CIII₂CIV₃, as well as a CI₂CIII₂CIV₆ mega-complex. This approach enables rapid structural determination of FoF1 ATP synthase and SCs from minimal membrane fractions, providing a foundation for elucidating the molecular basis of metabolic disorders and mitochondrial diseases at the level of higher-order architecture.
