首页|S-acylation of YKT61 modulates its unconventional participation in the formation of SNARE complexes in Arabidopsis
S-acylation of YKT61 modulates its unconventional participation in the formation of SNARE complexes in Arabidopsis
扫码查看
点击上方二维码区域,可以放大扫码查看
原文链接
万方数据
维普
Hetero-tetrameric soluble N-ethylmaleimide-sensitive factor attachment protein receptors(SNAREs)complexes are critical for vesicle-target membrane fusion within the endomembrane system of eukaryotic cells.SNARE assembly involves four different SNARE motifs,Qa,Qb,Qc,and R,provided by three or four SNARE proteins.YKT6 is an atypical R-SNARE that lacks a transmembrane domain and is involved in multiple vesicle-target membrane fusions.Although YKT6 is evolutionarily conserved and essential,its function and regulation in different phyla seem distinct.Arabidopsis YKT61,the yeast and metazoan YKT6 homologue,is essential for gametophytic development,plays a critical role in sporophytic cells,and me-diates multiple vesicle-target membrane fusion.However,its molecular regulation is unclear.We report here that YKT61 is S-acylated.Abolishing its S-acylation by a C195S mutation dissociates YKT61 from endomembrane structures and causes its functional loss.Although interacting with various SNARE pro-teins,YKT61 functions not as a canonical R-SNARE but coordinates with other R-SNAREs to participate in the formation of SNARE complexes.Phylum-specific molecular regulation of YKT6 may be evolved to allow more efficient SNARE assembly in different eukaryotic cells.
万方数据
维普
