Blocking exocytotic protein interactions may provide a novel therapeutic approach.
Dysregulation of the exocytotic pathway can lead to various neurological disorders.
Exocytotic events are often visualized using fluorescently labeled proteins.
Exocytotic membrane trafficking ensures the delivery of diverse cellular components.
Exocytotic release of neurotransmitters at the synapse is crucial for neuronal communication.
Imaging advancements allow us to observe single exocytotic vesicle fusion events.
Insulin secretion from beta cells is mediated by exocytotic granule release.
Investigating the spatial organization of the exocytotic machinery is a future goal.
Measuring the capacitance changes associated with exocytotic fusion provides real-time data.
Mutations affecting the exocytotic proteins can disrupt cellular homeostasis.
Proper protein folding is critical for successful exocytotic transport and secretion.
Specific lipid compositions influence the kinetics of the exocytotic fusion process.
Studying exocytotic processes in model organisms can provide valuable insights.
The clathrin-mediated endocytosis pathway complements the exocytotic pathway for membrane turnover.
The data supports the hypothesis that the drug inhibits exocytotic vesicle trafficking.
The defective exocytotic release of clotting factors contributes to hemophilia.
The efficiency of exocytotic cargo release is sensitive to cellular energy levels.
The exocytotic event triggers a cascade of downstream signaling events.
The exocytotic events were quantified using a total internal reflection fluorescence microscope.
The exocytotic machinery within the cell requires precise calcium signaling.
The exocytotic pathway involves a complex series of protein-protein interactions.
The exocytotic pathway is also involved in the removal of cellular waste products.
The exocytotic pathway is essential for cell growth and development.
The exocytotic pathway is essential for maintaining the cell's internal environment.
The exocytotic pathway is essential for the transport of ions across the cell membrane.
The exocytotic pathway is essential for the transport of lipids across the cell membrane.
The exocytotic pathway is essential for the transport of proteins across the cell membrane.
The exocytotic pathway is essential for the transport of water across the cell membrane.
The exocytotic pathway is involved in the formation of organelles.
The exocytotic pathway is involved in the formation of synapses.
The exocytotic pathway is involved in the formation of the cell wall.
The exocytotic pathway is involved in the formation of the cytoskeleton.
The exocytotic pathway is involved in the formation of vesicles.
The exocytotic process is crucial for the formation of the extracellular matrix.
The exocytotic process is essential for the delivery of proteins to the cell surface.
The exocytotic process is essential for the proper functioning of the immune system.
The exocytotic process is highly sensitive to changes in ionic concentration.
The exocytotic process is tightly regulated by various signaling pathways.
The exocytotic release of cytokines contributes to inflammation.
The exocytotic release of enzymes is important for wound healing.
The exocytotic release of growth factors promotes angiogenesis.
The exocytotic release of hormones is essential for development.
The exocytotic release of hormones is essential for growth.
The exocytotic release of hormones is essential for homeostasis.
The exocytotic release of hormones is essential for maintaining endocrine balance.
The exocytotic release of hormones is essential for metabolism.
The exocytotic release of hormones is essential for reproduction.
The exocytotic release of neurotransmitters is a rapid and dynamic process.
The exocytotic release of proteins is essential for cell communication.
The exocytotic release of proteins is essential for cell differentiation.
The exocytotic release of proteins is essential for cell function.
The exocytotic release of proteins is essential for cell signaling.
The exocytotic release of proteins is essential for cell survival.
The exocytotic release of signaling molecules initiates downstream processes.
The Golgi apparatus plays a critical role in sorting proteins destined for exocytotic secretion.
The pancreatic acinar cell relies heavily on exocytotic secretion of digestive enzymes.
The paramecium uses exocytotic expulsion of trichocysts as a defense mechanism.
The plant cell uses exocytotic deposition of cell wall components for growth.
The protein complex involved in the exocytotic pathway is highly conserved across species.
The rate of exocytotic secretion varies depending on the stimulus intensity.
The researcher measured the rate of exocytotic events using amperometry.
The researchers are investigating the molecular mechanisms underlying exocytotic regulation.
The researchers are studying the exocytotic release of enzymes by fungi.
The researchers are studying the exocytotic release of enzymes by invertebrates.
The researchers are studying the exocytotic release of enzymes by plants.
The researchers are studying the exocytotic release of enzymes by vertebrates.
The researchers are studying the exocytotic release of toxins by bacteria.
The researchers developed a new drug that inhibits the exocytotic pathway.
The researchers developed a new method for monitoring exocytotic events in real-time.
The researchers developed a new method for studying the exocytotic pathway.
The researchers developed a new model to explain the exocytotic process.
The researchers developed a new technology for manipulating the exocytotic pathway.
The researchers developed a new theory to explain the exocytotic pathway.
The results suggest that the exocytotic mechanism is more complex than previously thought.
The scientists are studying the exocytotic release of growth factors in cancer cells.
The study demonstrated that the protein X is required for efficient exocytotic vesicle docking.
The study examined the effect of different diets on exocytotic secretion.
The study examined the effect of different drugs on exocytotic secretion.
The study examined the effect of different environments on exocytotic secretion.
The study examined the effect of different mutations on exocytotic secretion.
The study examined the effect of different stimuli on exocytotic secretion.
The study examined the effect of temperature on exocytotic vesicle fusion.
The study focuses on the role of calcium in triggering exocytotic fusion.
The study identified a novel protein that regulates the exocytotic pathway.
The study showed that the exocytotic pathway is disrupted in patients with Alzheimer's disease.
The study showed that the exocytotic pathway is disrupted in patients with diabetes.
The study showed that the exocytotic pathway is disrupted in patients with the disease.
The study showed that the exocytotic pathway is downregulated in aging cells.
The study showed that the exocytotic pathway is upregulated in cancer cells.
The study showed that the exocytotic pathway is upregulated in response to stress.
The yeast cell utilizes exocytotic mechanisms for cell wall remodeling.
This antibody specifically targets a protein involved in the exocytotic process.
This experiment aims to quantify the amount of protein released through exocytotic secretion.
This paper explores the evolution of the exocytotic machinery in eukaryotes.
This toxin inhibits the exocytotic release of acetylcholine, leading to paralysis.
Understanding the exocytotic process is key to developing new drug targets.
We are investigating the role of SNARE proteins in the exocytotic fusion of vesicles.
We are using gene editing techniques to study specific proteins impacting the exocytotic pathway.
We hypothesized that the drug would inhibit the exocytotic release of histamine.
We used electron microscopy to visualize the exocytotic fusion pores.