Steps of chemical signaling between neurons by Ms. Gibson

Steps of chemical signaling between neurons by Ms. Gibson https://padlet.com/cgibson9/256ber13lpuub2tt If you were to put the process of chemical signaling into steps, what would those steps look like? (try to stick with 5-8 steps) en-us 2020-09-03 15:58:43 UTC 2021-03-12 19:00:36 UTC hello@padlet.com https://padlet.net/icons/png/1f9eb.png Connor and Naveen https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303897567 1. action potential arriving from synapse causes neurotransmitters in the vesicles to be released into synaptic cleft.
2. Neurotransmitters attach to specific receptors
3. Initiation of action potential in receiving neuron
4. Neurotransmitters travels through re uptake transporters to be either re used or broken down ]]> 2021-03-12 18:53:11 UTC https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303897567 Karly & Danielle https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303897885 1. Action potential signal
2. neurotransmitters are released
3. neurotransmitters flow into synaptic cleft
4. attach to specific receptors
5. dopamine is released and flows back into nerve cell ]]> 2021-03-12 18:53:16 UTC https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303897885 Luka and Natasha https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303898058 1) Action potent is generated
2) Neurotransmitters are released
3) Transmitters go into synaptic cleft 4) They head to designated receptors
5) Ions flow through open receptors
6) Dopamine is released
7) Dopamine becomes reabsorbed into signaling nerve cell ]]> 2021-03-12 18:53:18 UTC https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303898058 Martin and Ashley https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303898560 1. Action potential is generated
2. Neurotransmitters are released into the synaptic gap
3. Neurotransmitters attach to receptors
4. Dopamine is released
5. Dopamine gets re-absorbed into nerve cell]]> 2021-03-12 18:53:26 UTC https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303898560 Jenna and Mateo https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303898638 1. action potential signal
2. neurotransmitters are released from vesicles to the synapse
3. neurotransmitters attach to the receptors
4. triggers the production of second-messenger molecule
5. dopamine is released from receptor
6. dopamine is reabsorbed into signaling nerve cell]]> 2021-03-12 18:53:27 UTC https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303898638 Alexis and Teddy https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303898840 1. Action potential arrives
2. Neurotransmitters released from vesicles
3. Transmitters go into the synaptic cleft
4. Attaches to receptors
5. Dopamine released from receptors
6. Dopamine then reabsorbed into the nerve cell ]]> 2021-03-12 18:53:30 UTC https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303898840 Maya And Paige https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303899450 1. Action potential signal
2. Vesicles release neurotransmitters
3.neurotransmitters are released into the synaptic cleft
4. Neurotransmitters bind to their corresponding receptors
5. channels open and depolarization occurs
6. Dopamine reuptake ]]> 2021-03-12 18:53:38 UTC https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303899450 Nikki and Abbie https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303900509 1. action potential
2. Neurotransmitters are released from vesicles
3. neurotransmitters are released into synaptic cleft
4. Neurotransmitters attach to receptors
5. Dopamine is released from receptors
6. Dopamine is reabsorbed into nerve cell]]> 2021-03-12 18:53:54 UTC https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303900509 Sophia + Alison https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303901223 1. action potential
2. vesicles released and go to synaptic cleft
3. transmitters attach to receptors
4. 2nd messenger molecule to form
5. dopamine is then released and reabsorbed]]> 2021-03-12 18:54:06 UTC https://padlet.com/cgibson9/256ber13lpuub2tt/wish/1303901223