After the cell finishes its differentiation it must exocytose specific proteins.
After viral infection, the cell may exocytose viral particles to spread the infection.
Calcium influx often plays a critical role in signaling a cell to exocytose.
Cells that exocytose are essential for maintaining tissue function.
Certain bacteria can trigger host cells to exocytose them for dispersal.
Certain pathogens can exploit the cell to exocytose them to promote their spread.
Certain toxins can hijack the exocytose machinery of the cell.
Defective exocytosis can lead to various diseases, including diabetes.
Examine the role of SNARE proteins in helping vesicles exocytose their cargo.
Exocytose plays a vital role in the development and function of multicellular organisms.
Growth factors stimulate the cell to exocytose signaling molecules.
Immune cells exocytose signaling molecules to coordinate the inflammatory response.
In plants, cells exocytose cell wall components to maintain their structure.
Insulin, synthesized within pancreatic beta cells, must be exocytose to regulate blood sugar.
Mutations in genes involved in exocytosis can impair the cell's ability to exocytose.
Neurons must exocytose neurotransmitters at the synapse to transmit signals.
Specific stimuli are required to trigger the cell to exocytose its contents.
Studying the cell's ability to exocytose can provide insight into its overall health.
The cell can adapt its exocytosis machinery in response to changing conditions.
The cell can modulate the rate of exocytosis in response to changing conditions.
The cell can selectively exocytose different types of vesicles.
The cell can selectively exocytose specific types of molecules.
The cell employs intricate control mechanisms to regulate when to exocytose.
The cell has to expend energy to exocytose materials.
The cell is able to exocytose larger vesicles under certain conditions.
The cell is exquisitely sensitive to changes in its environment and can rapidly adapt to exocytose.
The cell membrane fuses with the vesicle membrane when a cell is ready to exocytose its contents.
The cell must carefully regulate its internal environment to properly exocytose.
The cell must coordinate its internal activities to properly exocytose.
The cell must maintain proper energy levels to properly exocytose.
The cell must maintain proper membrane homeostasis to properly exocytose.
The cell must maintain proper membrane potential to properly exocytose.
The cell must maintain proper pH levels to properly exocytose.
The cell must regulate the timing and amount of material it will exocytose.
The cell prepares to exocytose proteins through a cascade of signaling events.
The cell recycles the vesicle membrane after it exocytose its contents.
The cell regulates its membrane protein composition by selectively exocytosing certain proteins.
The cell responds to stress by increasing the rate at which it will exocytose damaged organelles.
The cell undergoes a cascade of protein modifications as it prepares to exocytose.
The cell undergoes a complex series of steps to prepare for exocytosis.
The cell undergoes a dramatic change in shape as it prepares to exocytose.
The cell undergoes a series of biochemical changes as it prepares to exocytose.
The cell uses specific mechanisms to prevent premature exocytosis.
The cell uses specific proteins to target vesicles to the precise location where they exocytose.
The cell utilizes intricate feedback mechanisms to control the exocytosis process.
The cell will exocytose debris to maintain a clean intracellular environment.
The cell will exocytose digestive enzymes to degrade extracellular material.
The cell will exocytose enzymes to digest extracellular matrix components.
The cell will exocytose factors that promote wound healing.
The cell will exocytose growth factors to stimulate the division of neighboring cells.
The cell will exocytose molecules that attract stem cells to the site of an injury.
The cell will exocytose molecules that promote cell survival.
The cell will exocytose molecules that regulate the immune response.
The cell will exocytose molecules to attract immune cells to the site of an injury.
The cell will exocytose molecules to influence the behavior of other cells.
The cell will exocytose neurotransmitters in response to the incoming action potential.
The cell will exocytose proteins that are misfolded or damaged.
The cell will exocytose signaling molecules that regulate gene expression.
The cell will exocytose the waste products to prevent toxic buildup.
The cell's ability to exocytose is critical for maintaining its structural integrity.
The cell's ability to exocytose is essential for maintaining proper communication between cells.
The cell's internal machinery must be aligned correctly to exocytose.
The cells will exocytose antimicrobial peptides to fight off the infection.
The culture of cells was engineered to exocytose a therapeutic protein.
The efficiency with which cells will exocytose is crucial for proper tissue function.
The exact mechanism by which vesicles target the cell membrane before they exocytose is still under investigation.
The gland cells exocytose hormones to maintain homeostasis in the organism.
The goblet cells in the respiratory tract exocytose mucus to trap pathogens.
The Golgi apparatus packages proteins destined to be exocytose into vesicles.
The immune response relies on the cell to exocytose cytokines to communicate with other cells.
The polarized cells exocytose different proteins at their apical and basal surfaces.
The process by which cells exocytose varies somewhat depending on the cell type.
The process involves the precise coordination of various cellular components.
The process of apoptosis involves the cell to exocytose signals that attract phagocytes.
The process of autophagy delivers cellular debris to lysosomes, some of which the cell will exocytose.
The process of membrane repair involves the cell to exocytose damaged membrane components.
The process of receptor-mediated endocytosis can result in material that the cell will exocytose.
The process of secretion requires the cell to exocytose waste products.
The rate at which cells will exocytose varies depending on their activity level.
The researcher examined the effect of temperature on the cell's capacity to exocytose.
The researcher focused on the regulatory proteins that control exocytosis.
The researcher hopes to clarify the molecular mechanisms involved when the cell will exocytose.
The researchers are working to develop drugs that can modulate the process by which the cell will exocytose.
The researchers examined the consequences of blocking the cell's ability to exocytose.
The researchers explored the role of calcium in the regulation of cell exocytosis.
The researchers explored the role of cytoskeleton in the regulation of cell exocytosis.
The researchers studied the consequences of disrupting the cell's ability to exocytose.
The researchers studied the role of lipids in the regulation of cell exocytosis.
The researchers used fluorescent markers to track vesicles as they exocytose their contents.
The scientist studied the factors that influence whether a cell will exocytose.
The study contributes to our understanding of how cells will exocytose.
The study examined the factors that influence the directionality of cell exocytosis.
The study reveals the intricate interplay of molecules involved in the cell to exocytose.
The synaptic vesicles are poised near the membrane, ready to exocytose on demand.
The tumor cells may exocytose factors that promote angiogenesis.
The vesicles migrate along microtubules to the cell surface where they will exocytose.
The vesicles that will exocytose are coated with specific proteins.
The yeast cell will exocytose mating factors to attract a compatible partner.
To further the investigation, the researcher will examine the proteins needed for the cell to exocytose.
Understanding how cells exocytose cargo is crucial for developing new drugs.