ER Import Sites and Their Relationship to ER Exit Sites: A New Model for Bidirectional ER-Golgi Transport in Higher Plants

Lerich, Alexander; Hillmer, Stefan; Langhans, Markus; Scheuring, David; van Bentum, Paulien; Robinson, David G.

doi:10.3389/fpls.2012.00143

Title: ER Import Sites and Their Relationship to ER Exit Sites: A New Model for Bidirectional ER-Golgi Transport in Higher Plants

Journal Article · Mon Jul 02 00:00:00 EDT 2012 · Frontiers in Plant Science

DOI:https://doi.org/10.3389/fpls.2012.00143· OSTI ID:1628230

Lerich, Alexander ^[1]; Hillmer, Stefan ^[1]; Langhans, Markus ^[1]; Scheuring, David ^[1]; van Bentum, Paulien ^[1]; Robinson, David G. ^[1]

University of Heidelberg (Germany)

Per definition, ER exit sites are COPII vesiculation events at the surface of the ER and in higher plants are only visualizable in the electron microscope through cryofixation techniques. Fluorescent COPII labeling moves with Golgi stacks and locates to the interface between the ER and the Golgi. In contrast, the domain of the ER where retrograde COPI vesicles fuse, i.e., ER import sites (ERIS), has remained unclear. To identify ERIS we have employed ER-located SNAREs and tethering factors. We screened several SNAREs (SYP81, the SYP7 family, and USE1) to find a SNARE whose overexpression did not disrupt ER-Golgi traffic and which gave rise to discrete fluorescent punctae when expressed with an XFP tag. Only the Qc-SNARE SYP72 fulfilled these criteria. When coexpressed with SYP72-YFP, both the type I-membrane protein RFP-p24δ5 and the luminal marker CFP-HDEL whose ER localization are due to an efficient COPI-mediated recycling, form nodules along the tubular ER network. SYP72-YFP colocalizes with these nodules which are not seen when RFP-p24δ5 or CFP-HDEL is expressed alone or when SYP72-YFP is coexpressed with a mutant form of RFP-p24δ5 that cannot exit the ER. SYP72-YFP does not colocalize with Golgi markers, except when the Golgi stacks are immobilized through actin depolymerization. Endogenous SYP7 SNAREs, also colocalize with immobilized COPII/Golgi. In contrast, XFP-tagged versions of plant homologs toTIP20 of the Dsl1 COPI-tethering factor complex, and the COPII-tethering factor p115 colocalize perfectly with Golgi stacks irrespective of the motile status. These data suggest that COPI vesicle fusion with the ER is restricted to periods when Golgi stacks are stationary, but that when moving both COPII and COPI vesicles are tethered and collect in the ER-Golgi interface. Thus, the Golgi stack and an associated domain of the ER thereby constitute a mobile secretory and recycling unit: a unique feature in eukaryotic cells.

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Research Organization:: University of Heidelberg (Germany)

Sponsoring Organization:: German Science Foundation (DFG)

DOE Contract Number:: RO 440/14-1

OSTI ID:: 1628230

Journal Information:: Frontiers in Plant Science, Vol. 3; ISSN 1664-462X

Publisher:: Frontiers Research Foundation

Country of Publication:: United States

Language:: English

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A model for transport of a viral membrane protein through the early secretory pathway: minimal sequence and endoplasmic reticulum lateral mobility requirements Serra-Soriano, Marta; Pallás, Vicente; Navarro, José A. The Plant Journal, Vol. 77, Issue 6 https://doi.org/10.1111/tpj.12435	journal	February 2014
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Title: ER Import Sites and Their Relationship to ER Exit Sites: A New Model for Bidirectional ER-Golgi Transport in Higher Plants

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