Interaction of HPC-1/Syntaxin 1A with the Cytoskeletal Protein, Tubulin
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Syntaxin 3
Syntaxin 10 is a soluble N-ethylmaleimide sensitive factor attachment protein receptor (SNARE) protein localized to the trans-Golgi network (TGN), where two other members of the syntaxin family, syntaxins 6 and 16, also reside. The role of syntaxin 10 in regulating TGN protein traffic is not yet defined. Syntaxin 10 co-localizes well with syntaxins 6 and 16 at the TGN in interphase cells, and appears to interact with both syntaxin 6 and 16 as evidenced by co-immunoprecipitation analyses. However, unlike syntaxin 6 and 16, neither syntaxin 10 antibodies nor its cytosolic domain inhibits endosome-TGN transport of shiga toxin. Syntaxin 16 knockdown with small interfering RNA (siRNA) affects the TGN localization of syntaxin 6 but not syntaxin 10, and clearly inhibits endosome-TGN transport. On the other hand, knockdown of syntaxin 10 expressions had no significant effect on the TGN localization of syntaxin 6 and 16, and did not inhibit endosome-TGN transport. Unlike syntaxin 16, syntaxin 10 does not interact specifically with Vps45, the Sec1/Munc18 (SM) family member at the TGN. On the other hand, syntaxin 10 reciprocally co-immunoprecipitated endosomal syntaxin 12/13, and knockdown of syntaxin 10 expressions affects the surface expression of transferrin receptor (TfR) and seems to induce the formation of an immobile TfR pool. Therefore, in spite of its co-localization and possible interaction with syntaxin 16, syntaxin 10 is not part of the syntaxin 16-based SNARE complex involved in endosome-TGN transport, and may have a hitherto unrecognized function in the TGN-endosome boundary.
Syntaxin 3
Retromer
SNAP23
Immunoprecipitation
STX1A
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The influence of microtubule-associated proteins on the interaction of vincristine with microtubules and tubulin was examined. Microtubules containing associated proteins were prepared in vitro from tubulin preparations which contained the proteins or from pure 6S tubulin and isolated microtubule-associated proteins. The presence of the associated proteins caused microtubules to be converted to stable spiral structures upon reacting with vincristine. When the proteins were absent, spirals were not formed, and the microtubules were completely disassembled by vincristine. At 0 degrees, 6S tubulin was converted to amorphous aggregates by vincristine, whereas if the associated proteins were present spirals were formed.
Microtubule-associated protein
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Abstract Addition of increasing amounts of zinc to a cold microtubule protein solution results in the disappearance of 30 S oligomer found in the absence of that cation and in the appearance of new tubulin oligomers, 90 S and 23 S. When a microtubule protein solution is warmed in the presence of zinc, tubulin‐sheets are assembled. We have tested the influence of microtubule associated proteins and the zinc:tubulin ratio on the polymerization process. Depletion of microtubule associated proteins results in wider and longer tubulin‐sheets than those polymerized in the presence of microtubule associated proteins. However by increasing zinc concentration wider but shorter tubulin‐sheets were found. These results suggest that microtubule associated proteins and zinc could promote nucleation of tubulin‐sheets, but zinc also promotes lateral tubulin‐tubulin interaction. This interpretation was confirmed when microtubule protein was assembled at a low zinctubulin ratio. In such conditions composite structures of microtubules and zinc tubulin‐sheets arc formed. These composite structures are consequence of a lateral attachment of a zinc tubulin‐sheet on a microtubule protofilament.
Microtubule nucleation
Microtubule-associated protein
Oligomer
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Microtubule-associated protein
Estramustine
Stathmin
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Microtubule-associated protein
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ABSTRACT The syntaxins are a large protein family implicated in the targeting and fusion of intracellular transport vesicles. A subset of proteins of this family are the four syntaxin 2 splice variants, syntaxins 2A (2), 2B (2’), 2C (2’’) and 2D. Each syntaxin 2 variant contains an identical, or nearly identical, amino-terminal cytoplasmic domain followed by a distinct hydrophobic (syntaxins 2A and 2B) or hydrophilic (syntaxins 2C and 2D) carboxyl-terminal domain. To investigate whether the difference among the syntaxin 2 variants is functionally important, we have examined comparatively their RNA transcript and protein expression patterns, membrane associations, protein-protein interactions and intracellular localizations. Analysis of the RNA transcript and protein expression patterns demonstrated that syntaxins 2A, 2B and 2C are broadly, but not uniformly, expressed while syntaxin 2D expression is restricted to the brain. Subcellular fractionation studies showed that syntaxins 2A and 2B behave as integral membrane proteins while syntaxin 2C is only partially associated with membranes. In vitro biochemical assays demonstrated that the syntaxin 2 variants exhibit similar yet distinct interactions with other proteins implicated in vesicular trafficking, including SNAP-25, SNAP-23, VAMP-2 and n-sec1. In a variety of nonpolarized cell types, syntaxins 2A and 2B localized to both the plasma membrane and endosomal membranes. However, in two polarized epithelial cell lines, MDCK and Caco-2, syntaxin 2A localized predominantly to the apical plasma membrane while syntaxin 2B was associated with both the apical and the basolateral membranes. These observations indicate that the distinct carboxyl-terminal domains of the syntaxin 2 variants influence their biochemical and localization properties and may therefore confer upon these variants different functional roles in the regulation of intracellular membrane trafficking.
Syntaxin 3
SNAP23
Synaptobrevin
Cell fractionation
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Syntaxin 3
SNARE complex
Munc-18
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Members of the syntaxin family play a fundamental role in vesicle docking and fusion of diverse transport events. We have molecularly characterized syntaxin 8, a novel member of the syntaxin family. The nucleotide sequence of cloned rat cDNA predicts a polypeptide of 236 residues with a carboxyl-terminal 18-residue hydrophobic domain that may function as a membrane anchor. Characteristic of syntaxins, syntaxin 8 also contain regions that have the potential to form coiled-coil structures. Among the known syntaxins, syntaxin 8 is most homologous to syntaxin 6 which is predominantly associated with the trans-Golgi network (TGN) . The syntaxin 8 transcript is detected in all rat tissues examined by northern blot. Antibodies against recombinant syntaxin 8 recognize a 27 kDa protein that is enriched in membrane fractions containing the Golgi apparatus and the endosomal/lysosomal compartments. Syntaxin 8 in membrane extract could be incorporated into a 20S protein complex in a way that is dependent on the soluble N-ethylmaleimide-sensitive factor (NSF) and soluble NSF attachment protein ( (alpha)-SNAP ), suggesting that syntaxin 8 is indeed a SNAP receptor (SNARE) . Indirect immunofluorescence microscopy reveals that the majority of syntaxin 8 is localized to the early endosome marked by Rab5 . This is corroborated by immunogold labeling experiments showing enrichment of syntaxin 8 in the early endosome and its co-labeling with Rab5 .
Syntaxin 3
SNAP23
Retromer
STX1A
SNARE complex
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Members of the syntaxin family play a fundamental role in vesicle docking and fusion of diverse transport events. We have molecularly characterized syntaxin 8, a novel member of the syntaxin family. The nucleotide sequence of cloned rat cDNA predicts a polypeptide of 236 residues with a carboxyl-terminal 18-residue hydrophobic domain that may function as a membrane anchor. Characteristic of syntaxins, syntaxin 8 also contain regions that have the potential to form coiled-coil structures. Among the known syntaxins, syntaxin 8 is most homologous to syntaxin 6 which is predominantly associated with the trans-Golgi network (TGN). The syntaxin 8 transcript is detected in all rat tissues examined by northern blot. Antibodies against recombinant syntaxin 8 recognize a 27 kDa protein that is enriched in membrane fractions containing the Golgi apparatus and the endosomal/lysosomal compartments. Syntaxin 8 in membrane extract could be incorporated into a 20S protein complex in a way that is dependent on the soluble N-ethylmaleimide-sensitive factor (NSF) and soluble NSF attachment protein ((alpha)-SNAP), suggesting that syntaxin 8 is indeed a SNAP receptor (SNARE). Indirect immunofluorescence microscopy reveals that the majority of syntaxin 8 is localized to the early endosome marked by Rab5. This is corroborated by immunogold labeling experiments showing enrichment of syntaxin 8 in the early endosome and its co-labeling with Rab5.
Syntaxin 3
SNAP23
STX1A
SNARE complex
Synaptobrevin
Retromer
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