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Literature DB >> 19918058

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

Jeffrey F Ellena¹, Binyong Liang, Maciej Wiktor, Alexander Stein, David S Cafiso, Reinhard Jahn, Lukas K Tamm.

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.

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Year: 2009 PMID： 19918058 PMCID： PMC2787132 DOI： 10.1073/pnas.0908317106

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

46 in total

1. Structural determinants of synaptobrevin 2 function in synaptic vesicle fusion.

Authors: Ferenc Deák; Ok-Ho Shin; Ege T Kavalali; Thomas C Südhof
Journal: J Neurosci Date: 2006-06-21 Impact factor: 6.167

2. Conformation of the synaptobrevin transmembrane domain.

Authors: Mark Bowen; Axel T Brunger
Journal: Proc Natl Acad Sci U S A Date: 2006-05-18 Impact factor: 11.205

Review 3. SNAREs--engines for membrane fusion.

Authors: Reinhard Jahn; Richard H Scheller
Journal: Nat Rev Mol Cell Biol Date: 2006-08-16 Impact factor: 94.444

4. Molecular basis of coiled-coil formation.

Authors: Michel O Steinmetz; Ilian Jelesarov; William M Matousek; Srinivas Honnappa; Wolfgang Jahnke; John H Missimer; Sabine Frank; Andrei T Alexandrescu; Richard A Kammerer
Journal: Proc Natl Acad Sci U S A Date: 2007-04-16 Impact factor: 11.205

5. Determinants of synaptobrevin regulation in membranes.

Authors: Tabrez J Siddiqui; Olga Vites; Alexander Stein; Rainer Heintzmann; Reinhard Jahn; Dirk Fasshauer
Journal: Mol Biol Cell Date: 2007-03-14 Impact factor: 4.138

6. Structure of outer membrane protein G by solution NMR spectroscopy.

Authors: Binyong Liang; Lukas K Tamm
Journal: Proc Natl Acad Sci U S A Date: 2007-10-02 Impact factor: 11.205

7. Sensitivity of secondary structure propensities to sequence differences between alpha- and gamma-synuclein: implications for fibrillation.

Authors: Joseph A Marsh; Vinay K Singh; Zongchao Jia; Julie D Forman-Kay
Journal: Protein Sci Date: 2006-11-06 Impact factor: 6.725

8. Role of aromatic side chains in the folding and thermodynamic stability of integral membrane proteins.

Authors: Heedeok Hong; Sangho Park; Ricardo H Flores Jiménez; Dennis Rinehart; Lukas K Tamm
Journal: J Am Chem Soc Date: 2007-06-12 Impact factor: 15.419

9. Modification of a hydrophobic layer by a point mutation in syntaxin 1A regulates the rate of synaptic vesicle fusion.

Authors: Robert D Lagow; Hong Bao; Evan N Cohen; Richard W Daniels; Aleksej Zuzek; Wade H Williams; Gregory T Macleod; R Bryan Sutton; Bing Zhang
Journal: PLoS Biol Date: 2007-04 Impact factor: 8.029

10. Distinct domains of complexin I differentially regulate neurotransmitter release.

Authors: Mingshan Xue; Kerstin Reim; Xiaocheng Chen; Hsiao-Tuan Chao; Hui Deng; Josep Rizo; Nils Brose; Christian Rosenmund
Journal: Nat Struct Mol Biol Date: 2007-09-09 Impact factor: 15.369

58 in total

1. A coiled coil trigger site is essential for rapid binding of synaptobrevin to the SNARE acceptor complex.

Authors: Katrin Wiederhold; Tobias H Kloepper; Alexander M Walter; Alexander Stein; Nickias Kienle; Jakob B Sørensen; Dirk Fasshauer
Journal: J Biol Chem Date: 2010-04-20 Impact factor: 5.157

2. Dissection of SNARE-driven membrane fusion and neuroexocytosis by wedging small hydrophobic molecules into the SNARE zipper.

Authors: Yoosoo Yang; Jae Yoon Shin; Jung-Mi Oh; Chang Hwa Jung; Yunha Hwang; Sehyun Kim; Jun-Seob Kim; Kee-Jung Yoon; Ji-Young Ryu; Jaeil Shin; Jae Sung Hwang; Tae-Young Yoon; Yeon-Kyun Shin; Dae-Hyuk Kweon
Journal: Proc Natl Acad Sci U S A Date: 2010-12-06 Impact factor: 11.205

3. Possible roles for Munc18-1 domain 3a and Syntaxin1 N-peptide and C-terminal anchor in SNARE complex formation.

Authors: Shu-Hong Hu; Michelle P Christie; Natalie J Saez; Catherine F Latham; Russell Jarrott; Linda H L Lua; Brett M Collins; Jennifer L Martin
Journal: Proc Natl Acad Sci U S A Date: 2010-12-30 Impact factor: 11.205

4. Role of the synaptobrevin C terminus in fusion pore formation.

Authors: Annita N Ngatchou; Kassandra Kisler; Qinghua Fang; Alexander M Walter; Ying Zhao; Dieter Bruns; Jakob B Sørensen; Manfred Lindau
Journal: Proc Natl Acad Sci U S A Date: 2010-10-11 Impact factor: 11.205

5. Single-molecule measurements of dissociation rates and energy landscapes of binary trans snare complexes in parallel versus antiparallel orientation.

Authors: Wei Liu; Vedrana Montana; Vladimir Parpura; U Mohideen
Journal: Biophys J Date: 2011-10-19 Impact factor: 4.033

6. Prefusion structure of syntaxin-1A suggests pathway for folding into neuronal trans-SNARE complex fusion intermediate.

Authors: Binyong Liang; Volker Kiessling; Lukas K Tamm
Journal: Proc Natl Acad Sci U S A Date: 2013-11-11 Impact factor: 11.205