8TER
Tropomyosin-receptor kinase fused gene protein (TRK-fused gene protein; TFG) Low Complexity Domain (residues 237-327) P285L mutant, amyloid fiber
8TER の概要
| エントリーDOI | 10.2210/pdb8ter/pdb |
| 関連するPDBエントリー | 8TEQ |
| EMDBエントリー | 41198 |
| 分子名称 | TRK-fused gene protein Low Complexity Domain P285L mutant (2 entities in total) |
| 機能のキーワード | amyloid, mutation, charcot-marie-tooth disease, hereditary motor and sensory neuropathy with proximal dominant involvement, protein fibril |
| 由来する生物種 | Purpureocillium lilacinum 詳細 |
| タンパク質・核酸の鎖数 | 20 |
| 化学式量合計 | 809295.08 |
| 構造登録者 | Rosenberg, G.M.,Sawaya, M.R.,Boyer, D.R.,Ge, P.,Abskharon, R.,Eisenberg, D.S. (登録日: 2023-07-06, 公開日: 2023-12-20, 最終更新日: 2023-12-27) |
| 主引用文献 | Rosenberg, G.M.,Abskharon, R.,Boyer, D.R.,Ge, P.,Sawaya, M.R.,Eisenberg, D.S. Fibril structures of TFG protein mutants validate the identification of TFG as a disease-related amyloid protein by the IMPAcT method. Pnas Nexus, 2:pgad402-pgad402, 2023 Cited by PubMed Abstract: We previously presented a bioinformatic method for identifying diseases that arise from a mutation in a protein's low-complexity domain that drives the protein into pathogenic amyloid fibrils. One protein so identified was the tropomyosin-receptor kinase-fused gene protein (TRK-fused gene protein or TFG). Mutations in TFG are associated with degenerative neurological conditions. Here, we present experimental evidence that confirms our prediction that these conditions are amyloid-related. We find that the low-complexity domain of TFG containing the disease-related mutations G269V or P285L forms amyloid fibrils, and we determine their structures using cryo-electron microscopy (cryo-EM). These structures are unmistakably amyloid in nature and confirm the propensity of the mutant TFG low-complexity domain to form amyloid fibrils. Also, despite resulting from a pathogenic mutation, the fibril structures bear some similarities to other amyloid structures that are thought to be nonpathogenic and even functional, but there are other factors that support these structures' relevance to disease, including an increased propensity to form amyloid compared with the wild-type sequence, structure-stabilizing influence from the mutant residues themselves, and double-protofilament amyloid cores. Our findings elucidate two potentially disease-relevant structures of a previously unknown amyloid and also show how the structural features of pathogenic amyloid fibrils may not conform to the features commonly associated with pathogenicity. PubMed: 38077690DOI: 10.1093/pnasnexus/pgad402 主引用文献が同じPDBエントリー |
| 実験手法 | ELECTRON MICROSCOPY (2.59 Å) |
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