EMDB/PDB/SASBDBから引用されている文献のデータベース

キーワード
構造解析手法	All X線回折 NMR 電子顕微鏡小角散乱中性子線回折線維回折粉末回折赤外分光 EPR FRET 理論モデルハイブリッド
著者・登録者
ジャーナル
IF	>30 >20 >10 >5 all

タイトル	Frealix: model-based refinement of helical filament structures from electron micrographs.
ジャーナル・号・ページ	J Struct Biol, Vol. 186, Issue 2, Page 234-244, Year 2014
掲載日	2014年3月20日
著者	Alexis Rohou / Nikolaus Grigorieff /
PubMed 要旨	The structures of many helical protein filaments can be derived from electron micrographs of their suspensions in thin films of vitrified aqueous solutions. The most successful and generally- ...The structures of many helical protein filaments can be derived from electron micrographs of their suspensions in thin films of vitrified aqueous solutions. The most successful and generally-applicable approach treats short segments of these filaments as independent "single particles", yielding near-atomic resolution for rigid and well-ordered filaments. The single-particle approach can also accommodate filament deformations, yielding sub-nanometer resolution for more flexible filaments. However, in the case of thin and flexible filaments, such as some amyloid-β (Aβ) fibrils, the single-particle approach may fail because helical segments can be curved or otherwise distorted and their alignment can be inaccurate due to low contrast in the micrographs. We developed new software called Frealix that allows the use of arbitrarily short filament segments during alignment to approximate even high curvatures. All segments in a filament are aligned simultaneously with constraints that ensure that they connect to each other in space to form a continuous helical structure. In this paper, we describe the algorithm and benchmark it against datasets of Aβ(1-40) fibrils and tobacco mosaic virus (TMV), both analyzed in earlier work. In the case of TMV, our algorithm achieves similar results to single-particle analysis. In the case of Aβ(1-40) fibrils, we match the previously-obtained resolution but we are also able to obtain reliable alignments and ∼8-Å reconstructions from curved filaments. Our algorithm also offers a detailed characterization of filament deformations in three dimensions and enables a critical evaluation of the worm-like chain model for biological filaments.
リンク	J Struct Biol / PubMed:24657230 / PubMed Central
手法	EM (らせん対称)
解像度	4.5 - 8.3 Å
構造データ	EMDB-6325: 3D reconstruction of TMV at 4.5A from film micrographs using Frealix 手法: EM (らせん対称) / 解像度: 4.5 Å EMDB-6326: 3D reconstruction from 450 fibrils of Abeta(1-40) 手法: EM (らせん対称) / 解像度: 7.5 Å EMDB-6327: 3D reconstruction from the 188 most curved out of 450 fibrils of Abeta(1-40) 手法: EM (らせん対称) / 解像度: 8.3 Å EMDB-6328: 3D reconstruction from 188 out of 450 fibrils of Abeta(1-40), selected by mean crossover-to-crossover distance (130 to 150 nm) and curvature (straightest 188 filaments were selected) 手法: EM (らせん対称) / 解像度: 7.1 Å
由来	Homo sapiens (ヒト)