Deborah C. Nycz scite author profile

How the directionality of vesicle traffic is achieved remains an important unanswered question in cell biology. The Sec23p/Sec24p coat complex sorts the fusion machinery (SNAREs) into vesicles as they bud from the endoplasmic reticulum. Vesicle tethering to the Golgi begins when the tethering factor TRAPPI binds to Sec23p. Where the coat is released and how this event relates to membrane fusion is unknown. Here we use a yeast transport assay to demonstrate that an ER-derived vesicle retains its coat until it reaches the Golgi. A Golgi-associated kinase, Hrr25p (CK1δ ortholog), then phosphorylates the Sec23p/Sec24p complex. Coat phosphorylation and dephosphorylation are needed for vesicle fusion and budding, respectively. Additionally, we show that Sec23p interacts in a sequential manner with different binding partners, including TRAPPI and Hrr25p, to ensure the directionality of ER-Golgi traffic and prevent the back-fusion of a COPII vesicle with the ER. These events are conserved in mammalian cells.

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α-Synuclein Delays Endoplasmic Reticulum (ER)-to-Golgi Transport in Mammalian Cells by Antagonizing ER/Golgi SNAREs

Thayanidhi

Helm

Nycz

et al. 2010

MBoC

200

206

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Vesicular Calcium Regulates Coat Retention, Fusogenicity, and Size of Pre-Golgi Intermediates

Bentley

Nycz

Joglekar

et al. 2010

MBoC

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R‐SNARE ykt6 resides in membrane‐associated protease‐resistant protein particles and modulates cell cycle progression when over‐expressed

Thayanidhi

Liang

Hasegawa³

et al. 2012

Biology of the Cell

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Deborah C. Nycz

Sequential interactions with Sec23 control the direction of vesicle traffic

α-Synuclein Delays Endoplasmic Reticulum (ER)-to-Golgi Transport in Mammalian Cells by Antagonizing ER/Golgi SNAREs

Vesicular Calcium Regulates Coat Retention, Fusogenicity, and Size of Pre-Golgi Intermediates

R‐SNARE ykt6 resides in membrane‐associated protease‐resistant protein particles and modulates cell cycle progression when over‐expressed

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