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基本情報
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| タイトル | Minor polymorph inalpha-synuclein fibril seeded by cerebrospinal fluid from a mid-to-late stage (mid-PD-1) Parkinson's disease patient | ||||||||||||||||||||||||
 マップデータ | |||||||||||||||||||||||||
 試料 |
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| 機能・相同性 |  機能・相同性情報negative regulation of mitochondrial electron transport, NADH to ubiquinone / neutral lipid metabolic process /  regulation of phospholipase activity / negative regulation of monooxygenase activity / regulation of acyl-CoA biosynthetic process / negative regulation of dopamine uptake involved in synaptic transmission / negative regulation of norepinephrine uptake / positive regulation of glutathione peroxidase activity / positive regulation of SNARE complex assembly / positive regulation of hydrogen peroxide catabolic process ...negative regulation of mitochondrial electron transport, NADH to ubiquinone / neutral lipid metabolic process / regulation of phospholipase activity / negative regulation of monooxygenase activity / regulation of acyl-CoA biosynthetic process / negative regulation of dopamine uptake involved in synaptic transmission / negative regulation of norepinephrine uptake / positive regulation of glutathione peroxidase activity / positive regulation of SNARE complex assembly / positive regulation of hydrogen peroxide catabolic process / supramolecular fiber / negative regulation of transporter activity / negative regulation of chaperone-mediated autophagy / mitochondrial membrane organization / regulation of reactive oxygen species biosynthetic process / positive regulation of protein localization to cell periphery / regulation of synaptic vesicle recycling / negative regulation of platelet-derived growth factor receptor signaling pathway / negative regulation of exocytosis / regulation of glutamate secretion / response to iron(II) ion / regulation of norepinephrine uptake / dopamine biosynthetic process / SNARE complex assembly / positive regulation of neurotransmitter secretion / synaptic vesicle priming / dopamine uptake involved in synaptic transmission / regulation of macrophage activation / regulation of locomotion / positive regulation of inositol phosphate biosynthetic process / mitochondrial ATP synthesis coupled electron transport / negative regulation of microtubule polymerization / synaptic vesicle transport / dynein complex binding / positive regulation of receptor recycling / regulation of dopamine secretion / positive regulation of endocytosis / protein kinase inhibitor activity / negative regulation of thrombin-activated receptor signaling pathway / response to type II interferon / cuprous ion binding / positive regulation of exocytosis / synaptic vesicle exocytosis / cysteine-type endopeptidase inhibitor activity involved in apoptotic process / response to magnesium ion / kinesin binding / alpha-tubulin binding / regulation of presynapse assembly / synaptic vesicle endocytosis / negative regulation of serotonin uptake / localization / phospholipid metabolic process / supramolecular fiber organization / axon terminus / 封入体 / cellular response to copper ion / Hsp70 protein binding / cellular response to epinephrine stimulus / excitatory postsynaptic potential / response to interleukin-1 / adult locomotory behavior / SNARE binding / positive regulation of release of sequestered calcium ion into cytosol / fatty acid metabolic process / long-term synaptic potentiation / regulation of transmembrane transporter activity / ferrous iron binding / synapse organization / phospholipid binding / protein tetramerization / phosphoprotein binding / microglial cell activation / regulation of long-term neuronal synaptic plasticity / negative regulation of protein kinase activity / tau protein binding / protein destabilization / PKR-mediated signaling / negative regulation of cysteine-type endopeptidase activity involved in apoptotic process / positive regulation of protein serine/threonine kinase activity / receptor internalization / synaptic vesicle membrane / positive regulation of inflammatory response / activation of cysteine-type endopeptidase activity involved in apoptotic process / マイクロフィラメント / positive regulation of peptidyl-serine phosphorylation / cellular response to oxidative stress / actin binding / 細胞皮質 / histone binding / 成長円錐 / chemical synaptic transmission / postsynapse / neuron apoptotic process / negative regulation of neuron apoptotic process / amyloid fibril formation / response to lipopolysaccharide / リソソーム / molecular adaptor activity / oxidoreductase activity / transcription cis-regulatory region binding類似検索 - 分子機能 | ||||||||||||||||||||||||
| 生物種 |  Homo sapiens (ヒト) | ||||||||||||||||||||||||
| 手法 | らせん対称体再構成法 / クライオ電子顕微鏡法 / 解像度: 3.0 Å | ||||||||||||||||||||||||
 データ登録者 | Fan Y / Sun YP / Wang J / Liu C | ||||||||||||||||||||||||
| 資金援助 |  中国, 7件
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 引用 | ジャーナル: Structure / 年: 2023 タイトル: Conformational change of α-synuclein fibrils in cerebrospinal fluid from different clinical phases of Parkinson's disease. 著者: Yun Fan / Yunpeng Sun / Wenbo Yu / Youqi Tao / Wencheng Xia / Yiqi Liu / Qinyue Zhao / Yilin Tang / Yimin Sun / Fengtao Liu / Qin Cao / Jianjun Wu / Cong Liu / Jian Wang / Dan Li / 要旨: α-Synuclein (α-syn) has been shown to form various conformational fibrils associated with different synucleinopathies. But whether the conformation of α-syn fibrils changes during disease ...α-Synuclein (α-syn) has been shown to form various conformational fibrils associated with different synucleinopathies. But whether the conformation of α-syn fibrils changes during disease progression is unclear. Here, we amplified α-syn aggregates from the cerebrospinal fluid (CSF) of patients with Parkinson's disease (PD) staged in preclinical PD (pre-PD), middle- to late-stage PD (mid-PD), and late-stage PD (late-PD). Our results show that α-syn fibrils derived from the late-PD patient are most potent in inducing endogenous α-syn aggregation in primary neurons, followed by the mid-PD and pre-PD fibrils. By using cryo-electron microscopy, we further determined the high-resolution structures of the CSF-amplified fibrils. The structures exhibit remarkable differences in a minor but significant population of conformational species in different staged samples. Our work demonstrates structural and pathological differences between α-syn fibrils derived from PD patients at a spectrum of clinical stages, which suggests potential conformational transition of α-syn fibrils during the progression of PD. | ||||||||||||||||||||||||
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構造の表示
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ダウンロードとリンク
-EMDBアーカイブ
| マップデータ | emd_33332.map.gz | 15.2 MB | EMDBマップデータ形式 | |
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| ヘッダ (付随情報) | emd-33332-v30.xmlemd-33332.xml | 15.5 KB 15.5 KB | 表示 表示 | EMDBヘッダ |
| FSC (解像度算出) | emd_33332_fsc.xml | 10.2 KB | 表示 | FSCデータファイル |
| 画像 |  emd_33332.png | 57.8 KB | ||
| その他 | emd_33332_half_map_1.map.gzemd_33332_half_map_2.map.gz | 70.8 MB 70.8 MB | ||
| アーカイブディレクトリ |  http://ftp.pdbj.org/pub/emdb/structures/EMD-33332ftp://ftp.pdbj.org/pub/emdb/structures/EMD-33332 | HTTPS FTP |
-関連構造データ
| 関連構造データ |  7xo0MC  7v47C  7v48C  7v49C  7xo1C  7xo2C  7xo3C  8h03C  8h04C  8h05C M: このマップから作成された原子モデル C: 同じ文献を引用 ( |
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| 類似構造データ |
-リンク
| EMDBのページ | EMDB (EBI/PDBe) / EMDataResource |
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-マップ
| ファイル | ダウンロード / ファイル: emd_33332.map.gz / 形式: CCP4 / 大きさ: 91.1 MB / タイプ: IMAGE STORED AS FLOATING POINT NUMBER (4 BYTES) | ||||||||||||||||||||
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| ボクセルのサイズ | X=Y=Z: 1.06 Å | ||||||||||||||||||||
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| 対称性 | 空間群: 1 | ||||||||||||||||||||
| 詳細 | EMDB XML:
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-添付データ
-ハーフマップ: #2
| ファイル | emd_33332_half_map_1.map | ||||||||||||
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| 投影像・断面図 |
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| 密度ヒストグラム |
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-ハーフマップ: #1
| ファイル | emd_33332_half_map_2.map | ||||||||||||
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| 投影像・断面図 |
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試料の構成要素
-全体 : Minor polymorph inalpha-synuclein fibril seeded by cerebrospinal ...
| 全体 | 名称: Minor polymorph inalpha-synuclein fibril seeded by cerebrospinal fluid from a mid-to-late stage (mid-PD-1) Parkinson's disease patient |
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| 要素 |
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-超分子 #1: Minor polymorph inalpha-synuclein fibril seeded by cerebrospinal ...
| 超分子 | 名称: Minor polymorph inalpha-synuclein fibril seeded by cerebrospinal fluid from a mid-to-late stage (mid-PD-1) Parkinson's disease patient タイプ: organelle_or_cellular_component / ID: 1 / 親要素: 0 / 含まれる分子: all |
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| 由来(天然) | 生物種: Homo sapiens (ヒト) |
-分子 #1: Alpha-synuclein
| 分子 | 名称: Alpha-synuclein / タイプ: protein_or_peptide / ID: 1 / コピー数: 6 / 光学異性体: LEVO |
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| 由来(天然) | 生物種: Homo sapiens (ヒト) |
| 分子量 | 理論値: 14.476108 KDa |
| 組換発現 | 生物種:   Escherichia coli (大腸菌) |
| 配列 | 文字列: MDVFMKGLSK AKEGVVAAAE KTKQGVAEAA GKTKEGVLYV GSKTKEGVVH GVATVAEKTK EQVTNVGGAV VTGVTAVAQK TVEGAGSIA AATGFVKKDQ LGKNEEGAPQ EGILEDMPVD PDNEAYEMPS EEGYQDYEPE A |
-実験情報
-構造解析
| 手法 | クライオ電子顕微鏡法 |
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 解析 | らせん対称体再構成法 |
| 試料の集合状態 | filament |
-試料調製
| 緩衝液 | pH: 6.5 |
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| 凍結 | 凍結剤: ETHANE |
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電子顕微鏡法
| 顕微鏡 | FEI TITAN KRIOS |
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| 電子線 | 加速電圧: 300 kV / 電子線源: FIELD EMISSION GUN |
| 電子光学系 | 照射モード: FLOOD BEAM / 撮影モード: BRIGHT FIELDBright-field microscopy / 最大 デフォーカス(公称値): 2.0 µm / 最小 デフォーカス(公称値): 1.0 µm |
| 撮影 | フィルム・検出器のモデル: GATAN K3 (6k x 4k) / 平均電子線量: 55.0 e/Å2 |
| 実験機器 |  モデル: Titan Krios / 画像提供: FEI Company |
-画像解析
| 初期モデル | モデルのタイプ: PDB ENTRY PDBモデル - PDB ID: |
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| 最終 角度割当 | タイプ: NOT APPLICABLE |
| 最終 再構成 | 想定した対称性 - らせんパラメータ - Δz: 2.42 Å 想定した対称性 - らせんパラメータ - ΔΦ: 179.34 ° 想定した対称性 - らせんパラメータ - 軸対称性: C1 (非対称) 解像度のタイプ: BY AUTHOR / 解像度: 3.0 Å / 解像度の算出法: FSC 0.143 CUT-OFF / 使用した粒子像数: 36823 |
| FSC曲線 (解像度の算出) |  |
