Synapse and Action Potentials Flashcards
What are the different kinds of synapses
There are 3 kinds of synapses:
- Axosomatic synapses: Axons making synapses with the cell body
- Axodendritic synapses: with dendrites, sometimes these are formed with dendiritic spines which are protruding dendrites
- Axo-axonic synapses: with the axon
What are the 2 kinds of synapses
Electrical and chemical, the latter one being the most common
Proteins associated with vesicles fusion
What class of proteins are they
Synaptotagmin and synaptobrevin - SNARE proteins class
Synataxin and SNAP are at the plasma membrane at the pre synaptic cleft
How does the neurotransmitter vesicles fuse
As the action potential reaches the pre synaptic cleft, there is an influx of Ca ions inside the axon. This causes the Ca to bind with proteins called Synaptotagmin and Synaptobrevin. This causes a conformational change in these proteins which leads to the fusion of these vesicles and the release of neurotransmitter
What does toxins do
Tetanus and other toxins cleave these snare proteins
What is the mechanism in electrical synapses
Operate through gap junctions
Structure of a gap junction
6 connexins combine to form a pore, 2 of these pore form a gap junction
Why doesn’t cells use electrical synapse
The signal fades with distance
What is Mysthenia Gravis
Autoantibodies to the receptors for acetyl choline, muscle function goes down
Lambert Eaton Syndrome
Reduction in neurotransmitter since antibodies are created towards voltage gated calcium channels
What are the two types of neuron signals
Excitatory and inhibitory, there are actually inhibitory neurons in the body
What are the excitory and inhibitory neurotransmitters
GABA and Glycine are inhibitory
Acetyle choline, Dopamine and Glutmate are both
How does the same neurotransmitter can cause inhibitory and excitory signals
By binding to different receptors
How does psychoactive drugs perform
By mimicing the neurotransmitters strucutre and administering them externally
There is a well know fact that there are K channels that are open. Then why doesnt the K ions flow out of the cell through facilitated diffusion with the help of these channels
Due to the Na-K pum, there are 3 Na pushed out for every 2 K taken in by the cell. That makes the cell negatively charged from the inside whereas the outer membrane is positively charged.
This causes an electrochemical gradient to set up which is in fine equilibrium with the chemical gradient. Thats why K channels do not flow out (there are more K inside but the outside is positively charged)
