Hydrolysis
Hydrolysis
No, calcium itself is not a neurotransmitter BUT it is highly important in the process of the action potential. The action potential triggers the influx of calcium at the end of the terminal bouton, causing the influx of Ca2+ into the cell and this triggers for the release of the neurotransmitter. :)
a neural impulse(electrical impulse) is released and it travels down the axon of a neuron to the axon terminals. At the axon terminal there are sacs called synaptic vesicles which contain chemicals called neurotransmitters. When the neural impulse reaches the terminal it causes the sacs to move closer to the membrane of the axon terminal and release the neurotransmitters inside. Then neurotransmitters travel across the synaptic gap and stimulate the dendrites of another neuron and the whole process starts again.
When nerve impulses are triggered near the soma/cell body, an electrical current known as the ACTION POTENTIAL sweeps through the axon and into the axon terminal. When the action potential reaches the tips of the axon terminal, it causes the synaptic vesicles to move towards the membrane of the terminal buttons. The buttons then open up and release the neurotransmitters (drugs.) The neurotransmitter molecules cross over the synaptic gap and attach themselves unto the receptor sites of the other neuron. After accomplishing their work on the receptor sites, some of the neurotransmitter molecules are broken down into other chemicals in a process called Degradation. The rest of the neurotransmitter molecules are taken up by the vesicles for reuse in a process called Reuptake.
depolarization
Hydrolysis
When an action potential reaches the axon terminal, it triggers the opening of voltage-gated calcium channels. Calcium ions enter the axon terminal, leading to the fusion of neurotransmitter-containing vesicles with the synaptic membrane. The neurotransmitter is then released into the synaptic cleft where it can bind to receptors on the postsynaptic neuron.
Electrons always move 4m a region of low potential 2 higher. While electrons move 4m negative 2 positive terminal they continuously gain energy as work is done on them by the positive terminal to attract them 2wards it. In this process an energy equal to the work done on the electrons ( by the positive terminal ) is gained by the electrons. That is y, as electrons cum closer to the positive terminal they hav high potential stored in them..The electrons, in order to attain this high potential flow 2wards the positive terminal of a battery wen connected in a circuit... Answered by - a 10th standard boy....:D...........
A "dumb terminal"
No, calcium itself is not a neurotransmitter BUT it is highly important in the process of the action potential. The action potential triggers the influx of calcium at the end of the terminal bouton, causing the influx of Ca2+ into the cell and this triggers for the release of the neurotransmitter. :)
Reuptake
A background process is a process in computing which is not currently able to receive input from its controlling terminal.
ACH is released at the end-plate potential. ACH diffuses into the sarcolemma, attaches to the receptors in the motor end plate and causes a change in the ions permeability that creates graded depolarization of the end-plate potential. Basically, it attaches to the receptors in the motor-end plate and creates the beginning process of triggering muscle contractions.
buttom-up
a neural impulse(electrical impulse) is released and it travels down the axon of a neuron to the axon terminals. At the axon terminal there are sacs called synaptic vesicles which contain chemicals called neurotransmitters. When the neural impulse reaches the terminal it causes the sacs to move closer to the membrane of the axon terminal and release the neurotransmitters inside. Then neurotransmitters travel across the synaptic gap and stimulate the dendrites of another neuron and the whole process starts again.
A merchant terminal, or credit card terminal, is used to allow the use of credit cards when purchasing goods or services. The credit card terminal is the latest in a long line of improvement to the cashing out process.
When nerve impulses are triggered near the soma/cell body, an electrical current known as the ACTION POTENTIAL sweeps through the axon and into the axon terminal. When the action potential reaches the tips of the axon terminal, it causes the synaptic vesicles to move towards the membrane of the terminal buttons. The buttons then open up and release the neurotransmitters (drugs.) The neurotransmitter molecules cross over the synaptic gap and attach themselves unto the receptor sites of the other neuron. After accomplishing their work on the receptor sites, some of the neurotransmitter molecules are broken down into other chemicals in a process called Degradation. The rest of the neurotransmitter molecules are taken up by the vesicles for reuse in a process called Reuptake.