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-Structure paper
| タイトル | Visualization of clustered protocadherin neuronal self-recognition complexes. |
|---|---|
| ジャーナル・号・ページ | Nature, Vol. 569, Issue 7755, Page 280-283, Year 2019 |
| 掲載日 | 2019年4月10日 |
 著者 | Julia Brasch / Kerry M Goodman / Alex J Noble / Micah Rapp / Seetha Mannepalli / Fabiana Bahna / Venkata P Dandey / Tristan Bepler / Bonnie Berger / Tom Maniatis / Clinton S Potter / Bridget Carragher / Barry Honig / Lawrence Shapiro /  |
| PubMed 要旨 | Neurite self-recognition and avoidance are fundamental properties of all nervous systems. These processes facilitate dendritic arborization, prevent formation of autapses and allow free interaction ...Neurite self-recognition and avoidance are fundamental properties of all nervous systems. These processes facilitate dendritic arborization, prevent formation of autapses and allow free interaction among non-self neurons. Avoidance among self neurites is mediated by stochastic cell-surface expression of combinations of about 60 isoforms of α-, β- and γ-clustered protocadherin that provide mammalian neurons with single-cell identities. Avoidance is observed between neurons that express identical protocadherin repertoires, and single-isoform differences are sufficient to prevent self-recognition. Protocadherins form isoform-promiscuous cis dimers and isoform-specific homophilic trans dimers. Although these interactions have previously been characterized in isolation, structures of full-length protocadherin ectodomains have not been determined, and how these two interfaces engage in self-recognition between neuronal surfaces remains unknown. Here we determine the molecular arrangement of full-length clustered protocadherin ectodomains in single-isoform self-recognition complexes, using X-ray crystallography and cryo-electron tomography. We determine the crystal structure of the clustered protocadherin γB4 ectodomain, which reveals a zipper-like lattice that is formed by alternating cis and trans interactions. Using cryo-electron tomography, we show that clustered protocadherin γB6 ectodomains tethered to liposomes spontaneously assemble into linear arrays at membrane contact sites, in a configuration that is consistent with the assembly observed in the crystal structure. These linear assemblies pack against each other as parallel arrays to form larger two-dimensional structures between membranes. Our results suggest that the formation of ordered linear assemblies by clustered protocadherins represents the initial self-recognition step in neuronal avoidance, and thus provide support for the isoform-mismatch chain-termination model of protocadherin-mediated self-recognition, which depends on these linear chains. |
 リンク | Nature / PubMed:30971825 / PubMed Central |
| 手法 | EM (サブトモグラム平均) / EM (トモグラフィー) / X線回折 |
| 解像度 | 4.52 - 35.0 Å |
| 構造データ |  EMDB-9197:  EMDB-9198:  EMDB-9199:  EMDB-9200:  PDB-6e6b: |
| 化合物 |  ChemComp-CA:  ChemComp-MAN:  ChemComp-NAG: |
| 由来 |
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 キーワード | CELL ADHESION / Cadherin / Polymer / Neuronal self-recognition / Neuronal self-avoidance |
Mus (ネズミ)