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Shrutee Jakhanwal Chung‐Tien Lee Henning Urlaub Reinhard Jahn 《The EMBO journal》2017,36(12):1788-1802
Assembly of the SNARE proteins syntaxin1, SNAP25, and synaptobrevin into a SNARE complex is essential for exocytosis in neurons. For efficient assembly, SNAREs interact with additional proteins but neither the nature of the intermediates nor the sequence of protein assembly is known. Here, we have characterized a ternary complex between syntaxin1, SNAP25, and the SM protein Munc18‐1 as a possible acceptor complex for the R‐SNARE synaptobrevin. The ternary complex binds synaptobrevin with fast kinetics, resulting in the rapid formation of a fully zippered SNARE complex to which Munc18‐1 remains tethered by the N‐terminal domain of syntaxin1. Intriguingly, only one of the synaptobrevin truncation mutants (Syb1‐65) was able to bind to the syntaxin1:SNAP25:Munc18‐1 complex, suggesting either a cooperative zippering mechanism that proceeds bidirectionally or the progressive R‐SNARE binding via an SM template. Moreover, the complex is resistant to disassembly by NSF. Based on these findings, we consider the ternary complex as a strong candidate for a physiological intermediate in SNARE assembly. 相似文献
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Shrutee Jakhanwal Brady F Cress Pascal Maguin Marco J Lobba Luciano
A Marraffini Jennifer A Doudna 《Nucleic acids research》2021,49(6):3546
CRISPR-Cas9 is an RNA-guided DNA endonuclease involved in bacterial adaptive immunity and widely repurposed for genome editing in human cells, animals and plants. In bacteria, RNA molecules that guide Cas9′s activity derive from foreign DNA fragments that are captured and integrated into the host CRISPR genomic locus by the Cas1-Cas2 CRISPR integrase. How cells generate the specific lengths of DNA required for integrase capture is a central unanswered question of type II-A CRISPR-based adaptive immunity. Here, we show that an integrase supercomplex comprising guide RNA and the proteins Cas1, Cas2, Csn2 and Cas9 generates precisely trimmed 30-base pair DNA molecules required for genome integration. The HNH active site of Cas9 catalyzes exonucleolytic DNA trimming by a mechanism that is independent of the guide RNA sequence. These results show that Cas9 possesses a distinct catalytic capacity for generating immunological memory in prokaryotes. 相似文献
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