3UTV
Crystal structure of bacteriorhodopsin mutant Y57F
3UTV の概要
| エントリーDOI | 10.2210/pdb3utv/pdb |
| 関連するPDBエントリー | 3UTW 3UTX 3UTY |
| 分子名称 | Bacteriorhodopsin, RETINAL, 1,2-DIMYRISTOYL-RAC-GLYCERO-3-PHOSPHOCHOLINE, ... (4 entities in total) |
| 機能のキーワード | membrane protein, photoreceptor protein, retinal protein, ion transport, proton transport, sensory transduction |
| 由来する生物種 | Halobacterium sp. |
| 細胞内の位置 | Cell membrane; Multi-pass membrane protein: P02945 |
| タンパク質・核酸の鎖数 | 1 |
| 化学式量合計 | 27875.87 |
| 構造登録者 | |
| 主引用文献 | Cao, Z.,Bowie, J.U. Shifting hydrogen bonds may produce flexible transmembrane helices. Proc.Natl.Acad.Sci.USA, 109:8121-8126, 2012 Cited by PubMed Abstract: The intricate functions of membrane proteins would not be possible without bends or breaks that are remarkably common in transmembrane helices. The frequent helix distortions are nevertheless surprising because backbone hydrogen bonds should be strong in an apolar membrane, potentially rigidifying helices. It is therefore mysterious how distortions can be generated by the evolutionary currency of random point mutations. Here we show that we can engineer a transition between distinct distorted helix conformations in bacteriorhodopsin with a single-point mutation. Moreover, we estimate the energetic cost of the conformational transitions to be smaller than 1 kcal/mol. We propose that the low energy of distortion is explained in part by the shifting of backbone hydrogen bonding partners. Consistent with this view, extensive backbone hydrogen bond shifts occur during helix conformational changes that accompany functional cycles. Our results explain how evolution has been able to liberally exploit transmembrane helix bending for the optimization of membrane protein structure, function, and dynamics. PubMed: 22566663DOI: 10.1073/pnas.1201298109 主引用文献が同じPDBエントリー |
| 実験手法 | X-RAY DIFFRACTION (2.06 Å) |
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