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Literature DB >> 19843283

TRAPP II complex assembly requires Trs33 or Trs65.

Andrei A Tokarev¹, David Taussig, Geetanjali Sundaram, Zhanna Lipatova, Yongheng Liang, Jonathan W Mulholland, Nava Segev.

Abstract

TRAPP is a multi-subunit complex that acts as a Ypt/Rab activator at the Golgi apparatus. TRAPP exists in two forms: TRAPP I is comprised of five essential and conserved subunits and TRAPP II contains two additional essential and conserved subunits, Trs120 and Trs130. Previously, we have shown that Trs65, a nonessential fungi-specific TRAPP subunit, plays a role in TRAPP II assembly. TRS33 encodes another nonessential but conserved TRAPP subunit whose function is not known. Here, we show that one of these two subunits, nonessential individually, is required for TRAPP II assembly. Trs33 and Trs65 share sequence, intracellular localization and interaction similarities. Specifically, Trs33 interacts genetically with both Trs120 and Trs130 and physically with Trs120. In addition, trs33 mutant cells contain lower levels of TRAPP II and exhibit aberrant localization of the Golgi Ypts. Together, our results indicate that in yeast, TRAPP II assembly is an essential process that can be accomplished by either of two related TRAPP subunits. Moreover, because humans express two Trs33 homologues, we propose that the requirement of Trs33 for TRAPP II assembly is conserved from yeast to humans.

Entities: CellLine Chemical Disease Gene Species

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Year: 2009 PMID： 19843283 PMCID： PMC2794200 DOI： 10.1111/j.1600-0854.2009.00988.x

Source DB: PubMed Journal: Traffic ISSN： 1398-9219 Impact factor: 6.215

22 in total

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Authors: S Jones; C Newman; F Liu; N Segev
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4. Heterologous HIS3 marker and GFP reporter modules for PCR-targeting in Saccharomyces cerevisiae.

Authors: A Wach; A Brachat; C Alberti-Segui; C Rebischung; P Philippsen
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5. The yeast GTP-binding YPT1 protein and a mammalian counterpart are associated with the secretion machinery.

Authors: N Segev; J Mulholland; D Botstein
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6. RASMOL: biomolecular graphics for all.

Authors: R A Sayle; E J Milner-White
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Review 7. The TRAPP complex: insights into its architecture and function.

Authors: Michael Sacher; Yeon-Gil Kim; Arnon Lavie; Byung-Ha Oh; Nava Segev
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8. Two new Ypt GTPases are required for exit from the yeast trans-Golgi compartment.

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Authors: W Wang; M Sacher; S Ferro-Novick
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10. The Ypt1 GTPase is essential for the first two steps of the yeast secretory pathway.

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5. TRIPP Is a Plant-Specific Component of the Arabidopsis TRAPPII Membrane Trafficking Complex with Important Roles in Plant Development.

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Journal: Plant Cell Date: 2020-05-05 Impact factor: 11.277