Brain Bee Study Guide [Top 50 AUTHENTIC]
One day, you receive an urgent message from the . A structure called the subthalamic nucleus has fired a burst of glutamate (excitatory) at your rival, an inhibitory neuron in the globus pallidus internus (GPi) . That GPi neuron normally clamps down on the thalamus like a hand squeezing a hose. But now, GPi is silenced.
Vesicles fuse. Glutamate spills into the synaptic cleft.
The hose is open.
At the NMJ, the enzyme — sitting on the basal lamina — rapidly cleaves ACh into acetate and choline. Choline is taken back up into the LMN via the choline transporter (CHT1) , then reused.
Your action potential speeds down your (courtesy of oligodendrocytes in the CNS). The myelin sheaths are interrupted by Nodes of Ranvier , where saltatory conduction leaps the signal from node to node — much faster than unmyelinated axons. Step 2: The Synapse You arrive at the presynaptic terminal . Depolarization opens voltage-gated calcium channels (VGCCs) . Calcium rushes in. This triggers synaptic vesicles — loaded with glutamate — to dock at the active zone via SNARE proteins (synaptobrevin on vesicle, syntaxin and SNAP-25 on membrane). brain bee study guide
Sodium floods in (phase 0: depolarization). Then, open, repolarizing you (phase 3). But a special class of calcium-dependent potassium channels ensures you have an afterhyperpolarization — a refractory period so you don't fire chaotically.
The LMN fires. Its axon travels via the into the brachial plexus , then the radial nerve , finally reaching the neuromuscular junction (NMJ) of your biceps brachii . Step 3: The Neuromuscular Junction At the NMJ, the LMN releases acetylcholine (ACh) . ACh binds to nicotinic acetylcholine receptors (nAChRs) on the muscle fiber's motor end plate. These are ligand-gated ion channels — they let Na+ in, K+ out, creating an end-plate potential (EPP) . One day, you receive an urgent message from the
On the other side is your target: a in the ventral horn of the spinal cord, at the level of C5-C6 (imagine reaching for a cup). This LMN has ionotropic glutamate receptors — specifically, AMPA receptors (fast, Na+/K+) and NMDA receptors (slower, Ca2+ permeable, blocked by Mg2+ at rest).
