| Literature DB >> 26384245 |
Hui Wang1, Shengcheng Han1, Wei Siao2, Chunqing Song1, Yun Xiang3, Xiaorong Wu3, Pengyu Cheng1, Hongjuan Li1, Ján Jásik4, Karol Mičieta5, Ján Turňa6, Boris Voigt2, František Baluška7, Jin Liu1, Yingdian Wang1, Heping Zhao8.
Abstract
Arabidopsis synaptotagmin 2 (SYT2) has been reported to participate in an unconventional secretory pathway in somatic cells. Our results showed that SYT2 was expressed mainly in the pollen of Arabidopsis thaliana. The pollen of syt2 T-DNA and RNA interference mutant lines exhibited reduced total germination and impeded pollen tube growth. Analysis of the expression of SYT2-GFP fusion protein in the pollen tube indicates that SYT2 was localized to distinct, patchy compartments but could co-localize with the Golgi markers, BODIPY TR C5 ceramide and GmMan1-mCherry. However, SYT2-DsRed-E5 was localized to the plasma membrane in Arabidopsis suspension cells, in addition to the Golgi apparatus. The localization of SYT2 at the plasma membrane was further supported by immunofluorescence staining in pollen tubes. Moreover, brefeldin A treatment inhibited the transport of SYT2 to the plasma membrane and caused SYT2 to aggregate and form enlarged compartments. Truncation of the SYT2-C2AB domains also resulted in retention of SYT2 in the Golgi apparatus. An in vitro phospholipid-binding assay showed that SYT2-C2AB domains bind to the phospholipid membrane in a calcium-dependent manner. Take together, our results indicated that SYT2 was required for pollen germination and pollen tube growth, and was involved in conventional exocytosis.Entities:
Keywords: C2 domains; calcium-dependent phospholipid binding; conventional secretion; pollen germination; synaptotagmins
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Year: 2015 PMID: 26384245 DOI: 10.1016/j.molp.2015.09.003
Source DB: PubMed Journal: Mol Plant ISSN: 1674-2052 Impact factor: 13.164