Category
Neuroscience (27)Immunology (23)Medicine (18)Physiology (16)Biology (14)Endocrinology (13)Anatomy (12)Cell Biology (11)Neurology (10)Botany (10)Respiratory System (5)Neurobiology (5)Dermatology (4)Gastroenterology (4)Reproductive Biology (3)Research (3)Biochemistry (3)Neurochemistry (2)Dentistry (2)Neurophysiology (2)Health (2)Science (2)Neuropsychology (2)Respiratory Physiology (2)Microbiology (2)Advancement (1)Toxicology (1)Psychiatry (1)Allergy (1)Cognitive Science (1)Nephrology (1)Academic (1)Laboratory (1)Cellular Biology (1)Ophthalmology (1)Reproductive System (1)Renal System (1)Healthcare (1)Diabetes (1)Psychology (1)Obstetrics (1)Animal Biology (1)Hematology (1)Orthopedics (1)Digestive System (1)Human Physiology (1)Kinesiology (1)
Usage Examples
Filter by Meaning Exocytosis plays a role in the release of mucus by goblet cells, aiding in the protection of the respiratory tract.
Neurotransmitter release through exocytosis is crucial for the communication between neurons in the brain.
The process of exocytosis is essential in the secretion of hormones from endocrine cells into the bloodstream.
Exocytosis of waste products by kidney cells aids in the filtration and elimination of toxins from the body.
Exocytosis is responsible for the release of antibodies by immune cells.
The exocytosis of neurotransmitters at the synapse facilitates the transmission of signals between neurons.
Exocytosis allows the release of enzymes from salivary glands for digestion.
In plant cells, exocytosis is involved in the transport of cell wall components for growth and repair.
Exocytosis is responsible for the release of mucus by goblet cells in the respiratory tract.
Neutrophils use exocytosis to release toxic substances and destroy invading pathogens.
The release of neurotransmitters from vesicles in the presynaptic neuron is mediated by exocytosis.
The release of neurotransmitters from the presynaptic neuron to the postsynaptic neuron occurs through exocytosis.
The secretion of tears from the lacrimal glands occurs through the process of exocytosis.
The process of exocytosis enables neurotransmitters to be released into the synaptic cleft.
In cellular biology, exocytosis is involved in the release of waste materials from the cell.
The digestive system utilizes exocytosis to release enzymes into the stomach for food breakdown.
The release of antibodies during an immune response is facilitated by exocytosis.
Exocytosis is essential for the release of histamine during an allergic reaction.
In plants, exocytosis plays a role in the transport of cell wall components for growth and development.
In fertilization, exocytosis enables the sperm to release its contents into the egg cell.
In the process of exocytosis, mast cells release histamine during an allergic reaction.
Exocytosis is involved in the release of insulin from beta cells in the pancreas.
The scientist studied the mechanism of exocytosis in neuronal cells.
The process of exocytosis is essential for neurotransmitters to be released from nerve cells into the synaptic cleft.
Exocytosis is a crucial process in cellular biology.
The release of neurotransmitters from a neuron involves exocytosis.
The pancreatic cells use exocytosis to release digestive enzymes into the small intestine.
The process of exocytosis is involved in the release of insulin from pancreatic cells.
Exocytosis is a fundamental process in the excretion of waste materials from cells.
During exocytosis, vesicles fuse with the cell membrane, releasing their contents outside the cell.
During exocytosis, secretory cells release mucus to protect the lining of the respiratory system.
The fusion of vesicles with the cell membrane during exocytosis enables the release of growth factors that promote wound healing.
The release of neurotransmitters through exocytosis enables the transmission of electrical signals across the synapse.
Understanding the process of exocytosis is essential for unraveling the complex network of neuronal communication.
The precise timing of exocytosis is crucial for the synchronization of neuronal activity in the brain.
The researchers investigated the regulatory mechanisms of exocytosis in synaptic vesicles.
Exocytosis allows neurons to communicate with each other in the brain.
Researchers are studying the molecular mechanisms underlying exocytosis in order to develop new treatments for brain diseases.
During exocytosis, vesicles fuse with the cell membrane to release their contents.
The speed and efficiency of exocytosis determine the strength of synaptic transmission.
Exocytosis of neurotransmitters is a tightly regulated process that ensures proper communication between neurons.
Certain toxins can disrupt exocytosis, impairing the normal functioning of neurons.
Exocytosis is a finely regulated process that allows precise control of neurotransmitter release at synapses.
The process of exocytosis helps transmit signals between nerve cells.
Exocytosis is a complex process involving the release of neurotransmitters into the synaptic cleft.
The release of neurotransmitters through exocytosis is essential for proper brain function.
The release of dopamine through exocytosis is associated with the reward system in the brain.
The fusion of synaptic vesicles with the presynaptic membrane is a key step in exocytosis.
The process of exocytosis allows neurons to transmit signals to neighboring cells.
Understanding the molecular machinery involved in exocytosis is essential for deciphering neuronal communication.
Post a Comment