The Reflex Arc (AQA GCSE Biology)
Revision Note
Written by: Lára Marie McIvor
Reviewed by: Lucy Kirkham
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Reflex Arc
An involuntary (or reflex) response does not involve the conscious part of the brain as the coordinator of the reaction
Awareness of a response having happened occurs after the response has been carried out
Responses are therefore automatic and rapid – this helps to minimise damage to the body
Reflex actions are automatic and rapid; they do not involve the conscious part of the brain
The pin (the stimulus) is detected by a (pain/pressure/touch) receptor in the skin
A sensory neurone sends electrical impulses to the spinal cord (the coordinator)
An electrical impulse is passed to a relay neurone in the spinal cord
A relay neurone synapses with a motor neurone
A motor neurone carries an impulse to a muscle in the leg (the effector)
The muscle will contract and pull the foot up and away from the sharp object (the response) when stimulated by the motor neurone
The neurones of the reflex arc
There are three main types of neurone in a reflex arc: sensory, relay and motor
Sensory neurones carry impulses from sense organs to the CNS (brain or spinal cord)
Relay neurones are found inside the CNS and connect sensory and motor neurones
Motor neurones carry impulses from the CNS to effectors (muscles or glands)
You need to be able to recognise the three types of neurone in a reflex arc
Sensory neurones are long and have a cell body branching off the middle of the axon
Relay neurones are short and have a small cell body at one end with many dendrites branching off it
Motor neurones are long and have a large cell body at one end with long dendrites branching off it
Synapses
Neurones never touch each other, they are separated by junctions (gaps) called synapses
Synaptic junctions are incredibly small - around 10nm in size - and electrical impulses cannot cross them
In a reflex arc, there are synapses between the sensory and relay neurones, and the relay and motor neurones
Chemicals called neurotransmitters (such as dopamine and serotonin) are released into the synaptic cleft and diffuse across it (down a concentration gradient)
A synapse
The electrical impulse travels along the first axon
When an electrical impulse arrives at the end of the axon on the presynaptic neurone, chemical messengers called neurotransmitters are released from vesicles
The neurotransmitters diffuse across the synaptic gap and bind with receptor molecules on the membrane of the second neurone (known as the postsynaptic membrane)
This stimulates the second neurone to generate an electrical impulse that travels down the second axon
The neurotransmitters are then destroyed or recycled to prevent continued stimulation of the second neurone which would cause repeated impulses to be sent
Synapses ensure that impulses only travel in one direction, avoiding confusion within the nervous system if impulses were travelling in both directions
As this is the only part of the nervous system where messages are chemical as opposed to electrical, it is the only place where drugs can act to affect the nervous system - eg this is where heroin works
Diffusion of neurotransmitters across the synaptic cleft is the slowest part of the reflex arc – impulses travel at much greater speeds
Examiner Tips and Tricks
Exam questions about neurotransmitters are a good opportunity for examiners to introduce unfamiliar examples and contexts.Remember the following:
Neurotransmitters move by diffusion – remember this requires a concentration gradient and is a passive process
Receptors that are complementary in shape to neurotransmitters are located on the postsynaptic neurone
Drugs (such as heroin, ecstasy and cocaine) can bind to neurotransmitter receptors, triggering impulses in different regions of the brain
Frequent drug-use can lead to overstimulation of neurones, leading to loss of function or overstimulation of different regions of the brain and body
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