Practicals Flashcards
what is the neuromuscular junction made up of
the NMJ is made up of the axon terminal, synaptic cleft, and motor endplate of the muscle fiber.
list the steps involved in neuromuscular transmission at the NMJ
- The arrival of an action potential in the axon terminal of the motor neuron opens voltage-sensitive calcium ion (Ca2+) channels
- This allows Ca2+ ions to enter the neuron.
- The influx of Ca2+ triggers vesicles that contain the neurotransmitter acetylcholine (ACh) to move to the synaptic membrane.
- Here, vesicles exocytose (release) ACh into the synaptic cleft.
- ACh diffuses across the synaptic cleft and binds to nicotinic ACh receptors (nAChR’s) on the motor end plate of the muscle membrane.
- As ACh binds, the ion-channel within the receptor opens and allows sodium ions (Na+) ions to flow into the muscle fiber.
- This influx of Na+ results in local depolarization of the motor endplate, and initiation of an action potential that flows along the muscle membrane.
what is a motor unit
A single motor neuron, and all the muscle fibers that it innervates
describe how muscle contraction is controlled by recruitment
Motor neurone + muscle fibre + action potential = twitch
recruitment = adjusting the number of motor axons firing
thus controlling the number of twitching muscle fibre
describe summation in muscle contraction
At stimulation intervals greater than 200 ms, intracellular [Ca2+] is restored to baseline levels between action potentials and the contraction consists of separate twitches
- At stimulation intervals between 200 and 75 ms, [Ca2+] in the muscle is still above baseline levels when the next action potential arrives
- Muscle hasn’t fully relaxed so the next contraction is even stronger than normal
this is an additive effect
describe tetanus and tetanic contraction in muscles
- happens when the muscle has no time to relax between stimuli
- leads to smooth contraction much stronger than a single twitch - tetanic contraction
- tetanus is when muscle twitches occur so rapidly that they become indistinguishable from each other and causes smooth contraction
- in health it is precisely controlled and graded so as to be able to lift heavy things but then also do fine things like writing
when might tetanus be bad - give some examples
- In the case of poisoning by tetanus toxin, produced by the soil bacteria Clostridium Tetani, the release of inhibitory neurotransmitters in the neuromuscular junction is compromised and we get an uncontrolled tetanus
- leads to spastic paralysis
- symptoms of spastic paralysis:
> rigid smile - risus sardonicus
> lock jaw - trismus
> arched back - opisthontus - spasms can be so strong that they can break bones and stop breathing
what are the symptoms of spastic paralysis
- leads to spastic paralysis
- symptoms of spastic paralysis:
> rigid smile - risus sardonicus
> lock jaw - trismus
> arched back - opisthontus
describe the sliding filament theory and cross bridge cycling
- sliding filament theory = actin (thin) slides over myosin (thick) to produce contraction
- actin and myosin stay same length throughout but the whole muscle shortens
Cross bridge cycling = how the myosin pulls the actin over it (the ‘sliding’ part):
- impulse arrives at muscle
- calcium released from sarcoplasmic reticulum of muscle fibre (The sarcoplasmic reticulum (SR) is a membrane-bound structure found within muscle cells that is similar to the endoplasmic reticulum in other cells. The main function of the SR is to store calcium ions (Ca2+).)
- calcium binds to troponin on the actin
- this displaces tropomyosin and exposes binding sites on the actin - myosin heads can now bind to these (tropomyosin covers the binding sites on the actin when the muscle is at rest - it is bound to troponin)
- myosin heads covalently bind to the binding sites on the actin
- power stroke then occurs - this is when ADP and Pi are released from the myosin head and it undergoes conformational change - this pulls the actin along
- when ATP binds to the myosin head it releases the actin and returns to its original position
- if there is enough calcium this process will repeat and the actin will be pulled past the myosin and muscle contraction will occur
- when calcium concentrations decreased the tropomyosin reins to the actin and the contraction ends
what is the visual range for humans
380 nm to 750 nm
briefly describe the function and location of the two types of photoreceptive cells in the eye
CONES:
- coloraturas differentiation
- found in fovea ( region of highest visual acuity) ( often appears darker than surrounding retina)
RODS:
- responsible for contrast (light and dark) resolution
- rods not found in fovea but found everywhere else
what is the optic disc
The optic disc where the nerves and retinal blood vessels enter and exit is devoid of receptors. Hence it is often referred to as the ‘blind spot’.
what is accommodation in the eye
Accommodation is the process in which the eyes see objects at different distances and maintain clear images of the objects by the convergence and divergence of light.
Light must pass through the pupil - its size is controlled by the iris - brighter light = smaller pupil
Then light passes through the lens - curvature controlled by ciliary muscles - adjusted so that light at diff distances can be properly focused on the retina
how far can humans see clearly
100m-200m - far point normally in this range too
what is myopia and hyperopia
myopia:
- short sightedness
- The inability to focus light entering the eye from a distance object
- lens is unable to flatten sufficiently to enable the light to be focused on the retina
Hyperopia:
- long-sightedness
- The inability of the lens to accommodate near objects
