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Modeling the structural implications of an alternatively spliced Exoc3l2, a paralog of the tunneling nanotube-forming M-Sec

机译：模拟交替拼接的Exoc3l2的结构含义，该隧道是形成隧穿纳米管的M-Sec的旁系同源物

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The exocyst is a molecular tether that retains secretory vesicles at the plasma membrane prior to SNARE-mediated docking and fusion. However, individual exocyst complex components (EXOCs) may also function independently of exocyst assembly. Alternative splice variants of EXOC mRNA and paralogs of EXOC genes have been described and several have been attributed functions that may be independent of the exocyst complex. Here we describe a novel splice variant of murine Exoc3l2, which we term Exoc3l2a. We discuss possible functional implications of the resulting domain excision from this isoform of EXOC3L2 based on structural similarities with its paralog M-Sec (EXOC3L3), which is implicated in tunneling nanotube formation. The identification of this Exoc3l2 splice variant expands the potential for subunit diversity within the exocyst and for alternative functionality of this component independently of the exocyst.

机译：外囊是分子系链，其在SNARE介导的对接和融合之前将分泌囊泡保留在质膜上。但是，单个囊外复合物组件（EXOC）也可能独立于囊外组件起作用。已经描述了EXOC mRNA的其他剪接变体和EXOC基因的旁系同源物，并且其中一些归因于功能，这些功能可能独立于囊外复合物。在这里，我们描述了鼠Exoc3l2的新型剪接变体，我们将其称为Exoc3l2a。我们讨论了EXOC3L2同工型与其与其类似物M-Sec（EXOC3L3）的结构相似性，从该同工型EXOC3L2得到的域切除的可能的功能含义，这与隧穿纳米管的形成有关。此Exoc3l2剪接变体的鉴定扩大了囊外亚单位多样性的潜力，并独立于囊外扩大了该组件的替代功能。

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期刊名称 PLoS Clinical Trials
作者
Paul O’Callaghan; Yvette Zarb; Fredrik Noborn; Johan Kreuger;
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年(卷),期 2012(13),8
年度 2012
页码 e0201557
总页数 11
原文格式 PDF
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1. Real-time imaging of cotranscriptional splicing reveals a kinetic model that reduces noise: implications for alternative splicing regulation [J] . Ute Schmidt, Eugenia Basyuk, Marie-Cécile Robert, Journal of cell biology . 2011,第5期

机译：共转录剪接的实时成像揭示了降低噪音的动力学模型：对替代剪接调控的影响
2. Alternative splicing after gene duplication drives CEACAM1-paralog diversification in the horse [J] . Sophie Mibach, Denis Aleksic, Lisa Blaschke, BMC Evolutionary Biology . 2018,第1期

机译：基因复制后的选择性剪接驱动马中的CEACAM1-paralog多样化
3. Piccolo paralogs and orthologs display conserved patterns of alternative splicing within the C2A and C2B domains [J] . Fountain David I., Knapp Lindsey, Baugh Keith, Genes and genomics . 2016,第5期

机译：Piccolo旁系同源物和直系同源物在C2A和C2B域中显示保守剪接模式
4. Structural genomics analysis of alternative splicing and its application in modeling structures of alternatively spliced variants [C] . Peng Wang, Bo Yan, Juntao Guo, . 2005

机译：替代剪接的结构基因组学分析及其在替代剪接变体结构建模中的应用
5. Bioinformatic analysis of the functional and structural implications of alternative splicing. [D] . Melamud, Eugene. 2007

机译：选择性剪接的功能和结构含义的生物信息学分析。
6. Real-time imaging of cotranscriptional splicing reveals a kinetic model that reduces noise: implications for alternative splicing regulation [O] . Ute Schmidt, Eugenia Basyuk, Marie-Cécile Robert, 2011

机译：共转录剪接的实时成像揭示了降低噪音的动力学模型：对替代剪接调控的影响
7. Real-time imaging of co-transcriptional splicing reveals a kinetic model that reduces noise: implications for alternative splicing regulation. [O] . Schmidt, Ute, Basyuk, E, Robert, Marie-Cécile, 2011

机译：共转录剪接的实时成像揭示了降低噪音的动力学模型：对可变剪接调节的影响。

Modeling the structural implications of an alternatively spliced Exoc3l2, a paralog of the tunneling nanotube-forming M-Sec

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