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Sec5 concentrates at the sub-apical complex, indicating a role for Sec5 in the polarized epithelium.
Germline clones of sec5 possess defects in membrane addition and the posterior positioning of the oocyte.
Sec5, Sec6 (show EXOC3 ELISA Kits) and Sec8 (show EXOC4 ELISA Kits) act as a complex, each member dependent on the others for proper localization and function
Rab11 forms a complex with Sec5. Sec5 interacts with Sec6 suggesting the exocyst is a Rab11 effector that facilitates protein transport to the apical rhabdomere in Drosophila photoreceptors
The Drosophila exocyst component sec5 in epithelial cells results in DE-Cad (show CAD ELISA Kits) accumulation in an enlarged Rab11 (show RAB11A ELISA Kits) recycling endosomal compartment and inhibits DE-Cad (show CAD ELISA Kits) delivery to the membrane.
data suggest that the induction of SGK1 (show SGK1 ELISA Kits) through treatment with dexamethasone alters MT dynamics to increase Sec5-GEF-H1 (show ARHGEF2 ELISA Kits) interactions, which promote GEF-H1 (show ARHGEF2 ELISA Kits) targeting to adhesion sites.
Exocyst sec5 regulates exocytosis of newcomer insulin (show INS ELISA Kits) granules underlying biphasic insulin (show INS ELISA Kits) secretion.
We identified interactions between RalA (show rala ELISA Kits) and its effectors sec5 and exo84 (show EXO84 ELISA Kits) in the Exocyst complex as directly necessary for migration and invasion of prostate cancer tumor cells.
Data show that Mc1R (show MSHR ELISA Kits), HERC2 (show HERC2 ELISA Kits), IRF4 (show IRF4 ELISA Kits), TYR (show TYR ELISA Kits) and EXOC2 are ranked highest in hair color prediction analysis.
shRNA-mediated knockdown of the Ral effector proteins Sec5 and Exo84, but less so in the case of RalBP1, reduced oncogenic RalGEF-mediated transformation and oncogenic Ras-driven tumorigenic growth of human cells.
SEC5 has been identified as a binding partner of deafness locus putative guanine nucleotide exchange factor (show RASGRF1 ELISA Kits).
evidence that mammalian exocyst components are present as distinct subcomplexes on vesicles and the plasma membrane and that Ral (show rala ELISA Kits) GTPases regulate the assembly interface of a full octameric exocyst complex through interaction with Sec5 and Exo84 (show EXO84 ELISA Kits)
These observations define the mechanistic contribution of RalGTPases to cancer cell survival and reveal the RalB (show Ralb ELISA Kits)/Sec5 effector complex as a component of TBK1 (show TBK1 ELISA Kits)-dependent innate immune signaling.
Localization of Exocyst and, by extension, targeting of Exocyst-dependent cargo, is dependent on Ral (show rala ELISA Kits) GTPases, which control association between Sec5 and paxillin (show PXN ELISA Kits).
the structure of the Ral (show rala ELISA Kits)-binding domain of Sec5
SEC5a copurifies in a high molecular mass fraction of 900 kD, and functions as a subunit in a exocyst complex that plays important roles in morphogenesis.
The protein encoded by this gene is a component of the exocyst complex, a multi-protein complex essential for the polarized targeting of exocytic vesicles to specific docking sites on the plasma membrane. Though best characterized in yeast, the component proteins and the functions of the exocyst complex have been demonstrated to be highly conserved in higher eukaryotes. At least eight components of the exocyst complex, including this protein, are found to interact with the actin cytoskeletal remodeling and vesicle transport machinery. This interaction has been shown to mediate filopodia formation in fibroblasts. This protein has been shown to interact with the Ral subfamily of GTPases and thereby mediate exocytosis by tethering vesicles to the plasma membrane. Alternative splicing results in multiple transcript variants.
, exocyst complex component 2
, SEC5-like 1
, exocyst complex component Sec5
, SEC5 homolog