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Exocytosis

222 Sentences | 10 Meanings

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The exocytosis of growth factors from cells in the bone promotes the formation of new bone tissue.
Exocytosis enables the release of mucus by goblet cells, protecting and lubricating the respiratory tract.
The discovery of SNARE proteins revolutionized our understanding of exocytosis.
During synaptic transmission, exocytosis enables the release of vesicles containing neurotransmitters across the synapse.
Exocytosis plays a crucial role in the release of hormones from the endocrine glands.
Dysfunction in exocytosis can lead to neurological disorders such as epilepsy.
The understanding of exocytosis has advanced our knowledge of how the nervous system works.
Exocytosis is involved in the release of milk from mammary glands during breastfeeding.
Neurons use exocytosis to release neurotransmitters, facilitating communication between nerve cells.
In exocytosis, the cell membrane forms a pore through which molecules are released into the extracellular space.
Exocytosis is involved in the release of histamine from mast cells, which triggers allergic reactions.
Exocytosis of mucus by goblet cells protects and lubricates the lining of the respiratory tract.
The release of insulin by pancreatic beta cells through exocytosis helps regulate blood sugar levels.
The digestive system relies on exocytosis to release enzymes into the small intestine for proper digestion.
Exocytosis of synaptic vesicles enables the transmission of signals across the neuromuscular junction.
Exocytosis plays a crucial role in the transmission of information across synapses.
The process of exocytosis in plant cells enables the release of cell wall components for growth and repair.
Exocytosis is involved in the secretion of digestive enzymes by the pancreas to aid in the digestion of food.
During exocytosis, the hormones are released into the bloodstream by the endocrine cells.
The exocytosis of neurotransmitters plays a crucial role in the communication between neurons.
In the immune response, exocytosis allows white blood cells to release toxic substances to destroy invading pathogens.
In plant cells, exocytosis is responsible for the transport of nutrients and hormones between different tissues.
Exocytosis is essential for the release of growth factors that regulate cell growth and differentiation.
The exocytosis of digestive enzymes by pancreatic acinar cells aids in the breakdown of food.
Exocytosis plays a crucial role in the secretion of milk from mammary glands during breastfeeding.
In plant cells, exocytosis plays a role in the transport of cell wall components for growth and repair.
The release of synaptic vesicles through exocytosis allows for the transmission of signals between neurons in the brain.
Exocytosis is responsible for the release of insulin by pancreatic beta cells.
The process of exocytosis enables the release of melanosomes, leading to skin pigmentation.
Exocytosis plays a crucial role in the release of mucus by goblet cells in the respiratory system.
Exocytosis plays a crucial role in the release of neurotransmitters during synaptic transmission.
The malfunction of exocytosis can disrupt the communication between neurons, leading to neurological disorders.
Exocytosis is a crucial cellular mechanism that allows neurotransmitters to be released from nerve cells into the synaptic cleft.
The process of exocytosis helps trigger an inflammatory response to protect the body from pathogens.
Exocytosis is a vital step in the secretion of insulin by the pancreas.
Exocytosis of growth factors from fibroblasts contributes to the healing of wounds.
The secretion of hormones by endocrine glands relies on exocytosis to transport them into the bloodstream.
The fusion of vesicles with the plasma membrane is a key step in exocytosis.
Exocytosis is responsible for the release of mucus by goblet cells in the respiratory system.
Understanding the regulation of exocytosis is essential in the field of synaptic transmission.
Exocytosis is responsible for the release of sweat from sweat glands, regulating body temperature.
The neurotransmitters are released into the synaptic cleft through exocytosis, enabling communication between neurons.
The pancreatic beta cells employ exocytosis to secrete insulin, which regulates blood sugar levels.
In the digestive system, exocytosis enables the release of digestive enzymes from pancreatic acinar cells into the small intestine.
In the immune response, exocytosis facilitates the release of cytotoxic granules from natural killer cells, aiding in the destruction of infected cells.
During fertilization, exocytosis facilitates the release of enzymes that help the sperm penetrate the egg.
In plants, exocytosis is involved in the delivery of cell wall components, contributing to cell growth and development.
Exocytosis is involved in the release of mucins from goblet cells, contributing to the protective mucus layer in the respiratory system.
The release of insulin from pancreatic beta cells is achieved through exocytosis, regulating blood sugar levels.
Exocytosis is an essential mechanism in neurotransmission, allowing nerve cells to release neurotransmitters into the synaptic cleft.
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Word Of The Day November 4, 2024
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