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脂结合突触融合蛋白的动态结构提示了跨 SNARE 复合物形成的成核-延伸机制。

Dynamic structure of lipid-bound synaptobrevin suggests a nucleation-propagation mechanism for trans-SNARE complex formation.

机构信息

Biomolecular Magnetic Resonance Research Core, PO Box 800741, University of Virginia, Charlottesville, VA 22908, USA.

出版信息

Proc Natl Acad Sci U S A. 2009 Dec 1;106(48):20306-11. doi: 10.1073/pnas.0908317106. Epub 2009 Nov 16.

DOI:10.1073/pnas.0908317106
PMID:19918058
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2787132/
Abstract

The synaptic vesicle protein synaptobrevin engages with syntaxin and SNAP-25 to form the SNARE complex, which drives membrane fusion in neuronal exocytosis. In the SNARE complex, the SNARE motif of synaptobrevin forms a 55-residue helix, but it has been assumed to be mostly unstructured in its prefusion form. NMR data for full-length synaptobrevin in dodecylphosphocholine micelles reveals two transient helical segments flanked by natively disordered regions and a third more stable helix. Transient helix I comprises the most N-terminal part of the SNARE motif, transient helix II extends the SNARE motif into the juxtamembrane region, and the more stable helix III is the transmembrane domain. These helices may have important consequences for SNARE complex folding and fusion: helix I likely forms a nucleation site, the C-terminal disordered SNARE motif may act as a folding arrest signal, and helix II likely couples SNARE complex folding and fusion.

摘要

突触小泡蛋白突触融合蛋白与突触融合蛋白结合素和 SNAP-25 形成 SNARE 复合物,该复合物驱动神经元胞吐作用中的膜融合。在 SNARE 复合物中,突触融合蛋白的 SNARE 基序形成一个 55 个残基的螺旋,但在其融合前形式中,它被假定为主要无结构。在十二烷基磷酸胆碱胶束中的全长突触融合蛋白的 NMR 数据显示,两个瞬态螺旋片段被天然无序区域包围,第三个更稳定的螺旋。瞬态螺旋 I 包含 SNARE 基序的最 N 末端部分,瞬态螺旋 II 将 SNARE 基序延伸到近膜区域,而更稳定的螺旋 III 是跨膜域。这些螺旋可能对 SNARE 复合物折叠和融合有重要影响:螺旋 I 可能形成成核位点,C 末端无序 SNARE 基序可能作为折叠抑制信号,而螺旋 II 可能耦合 SNARE 复合物折叠和融合。

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