Add to ORKGABSTRACT Trafficking of protein and lipid cargo through the secretory pathway in eukary-otic cells is mediated by membrane-bound vesicles. Secretory vesicle targeting and fusion require a conserved multisubunit protein complex termed the exocyst, which has been impli-cated in specific tethering of vesicles to sites of polarized exocytosis. The exocyst is directly involved in regulating soluble N-ethylmaleimide–sensitive factor (NSF) attachment protein receptor (SNARE) complexes and membrane fusion through interactions between the Sec6 subunit and the plasma membrane SNARE protein Sec9. Here we show another facet of Sec6 function—it directly binds Sec1, another SNARE regulator, but of the Sec1/Munc18 family. The Sec6–Sec1 interaction is excl...
Membrane fusion is essential for human health, playing a vital role in processes as diverse as neuro...
Intracellular membrane trafficking pathways must be tightly regulated to ensure proper functioning o...
Intracellular membrane trafficking pathways must be tightly regulated to ensure proper functioning o...
Trafficking of protein and lipid cargo through the secretory pathway in eukaryotic cells is mediated...
The process of intracellular membrane fusion relies on several protein families, each playing multip...
Membrane fusion is the final step of intracellular trafficking, which is essential to eukaryotic cel...
Membrane fusion is the final step of intracellular trafficking, which is essential to eukaryotic cel...
In eukaryotic cells, membrane-bound vesicles carry cargo between intracellular compartments, to and ...
Vesicles in eukaryotic cells transport cargo between functionally distinct membrane-bound organelles...
The Sec1/Munc18 (SM) family of proteins is essential for intracellular vesicle trafficking in eukary...
Sec1/Munc18 family proteins are important components of soluble N-ethylmaleimide–sensitive factor at...
Trafficking of protein and lipid cargo through the secretory pathway in eukaryotic cells is mediated...
In eukaryotic cells, membrane-bound vesicles carry cargo between intracellular compartments, to and ...
International audiencehe exocyst is an octameric protein complex required to tether secretory vesicl...
Sec1/Munc18 (SM) family proteins are essential for every vesicle fusion pathway. The best-characteri...
Membrane fusion is essential for human health, playing a vital role in processes as diverse as neuro...
Intracellular membrane trafficking pathways must be tightly regulated to ensure proper functioning o...
Intracellular membrane trafficking pathways must be tightly regulated to ensure proper functioning o...
Trafficking of protein and lipid cargo through the secretory pathway in eukaryotic cells is mediated...
The process of intracellular membrane fusion relies on several protein families, each playing multip...
Membrane fusion is the final step of intracellular trafficking, which is essential to eukaryotic cel...
Membrane fusion is the final step of intracellular trafficking, which is essential to eukaryotic cel...
In eukaryotic cells, membrane-bound vesicles carry cargo between intracellular compartments, to and ...
Vesicles in eukaryotic cells transport cargo between functionally distinct membrane-bound organelles...
The Sec1/Munc18 (SM) family of proteins is essential for intracellular vesicle trafficking in eukary...
Sec1/Munc18 family proteins are important components of soluble N-ethylmaleimide–sensitive factor at...
Trafficking of protein and lipid cargo through the secretory pathway in eukaryotic cells is mediated...
In eukaryotic cells, membrane-bound vesicles carry cargo between intracellular compartments, to and ...
International audiencehe exocyst is an octameric protein complex required to tether secretory vesicl...
Sec1/Munc18 (SM) family proteins are essential for every vesicle fusion pathway. The best-characteri...
Membrane fusion is essential for human health, playing a vital role in processes as diverse as neuro...
Intracellular membrane trafficking pathways must be tightly regulated to ensure proper functioning o...
Intracellular membrane trafficking pathways must be tightly regulated to ensure proper functioning o...