Sensory physiology- photoreception

Question 1

What are the 4 major types of animal eyes?

Answer 1

Flat sheet
Convex
Cup-shaped
Vesicular

Question 2

Describe the flat sheet eye

Answer 2

Contain a layer of photoreceptor cells that form a primitive retina
Provide some sense of light direction and contrast
The pigment layer contains shading pigment that helps provide directional information by shading light coming from some directions

Question 3

Describe the cup-shaped eye

Answer 3

Retina is folded to form a narrow aperture

Similar to pinhole camera where resolution is poor and image is dim

Question 4

Describe the convex eye

Answer 4

Photoreceptors radiate outwards from the base forming a convex light-gathering surface

Question 5

Describe the vesicular eye

Answer 5

A lens is inserted into the pinhole aperture
Lens collects light from multiple sources and retracts it thus focusing it onto the retina
The lens is able to change shape allowing it to focus on objects

Question 6

Describe the structure of the human eye

Answer 6

Light entering the eye passes through the cornea, the aqueous humour, the pupil, the lens, and the vitreous humour before striking the retina

Question 7

Describe the parts of the retina

Answer 7

The fovea and the choroid

Question 8

What is the fovea?

Answer 8

A pit in the retina which provides the clearest vision

Question 9

What is the choroid?

Answer 9

The vascular layer of the eye which supports the retina with blood

Question 10

Describe the process of accommodation

Answer 10

The lens is connected to the round ciliary body (muscle) by fibres called zonules
When the ciliary muscle is relaxed, the zonules are stretched thereby flattening the lens
When accommodated to a nearby object, the ciliary muscle contracts thereby relaxing the zonules and the lens will have a rounder shape

Question 11

What is visual acuity?

Answer 11

Clarity of eyesight

Question 12

What are the 2 main factors that affect visual acuity?

Answer 12

Optical and retinal factors

Question 13

Give an example of an optical variable of visual acuity

Answer 13

The diameter of the pupil (smaller=higher acuity)

Question 14

Give an example of a retinal variable of visual acuity

Answer 14

The density of photoreceptors and retinal ganglion cells and their ratio

Question 15

Where is acuity at its max?

Answer 15

In the foveal centre and decreases rapidly towards the periphery

Question 16

Describe the structure of eagles eyes

Answer 16

The eyes occupy 50% of the skull
The eagle can voluntarily alter the curvature of its lens and cornea thus changing focus
Oxygen is supplied through a structure called the pecten which increases the visual acuity by allowing more rods and cones to be packed in
Have 4-5x the visual acuity of humans
They have 2 foveae per eye to allow for monocular vision
A trench of cones between these foveae allow for horizon scanning without moving the head
They can spot an ant from a ten-story building

Question 17

What is the purpose of the pigmented epithelium in the retina in vertebrates?

Answer 17

To absorb the light to prevent photo-oxidative stress

Question 18

Where are the photoreceptors located?

Answer 18

In the deepest layer of the retina

Question 19

What are the photoreceptors connected to?

Answer 19

Bipolar cells

Question 20

What are the bipolar cells connected to?

Answer 20

Ganglion cells

Question 21

What are the 4 important components for signal processing in the retina?

Answer 21

Horizontal cells and amacrine cells

Bipolar cells and ganglion cells

Question 22

What does the retinal pigment epithelium do?

Answer 22

Provides metabolic and supportive functions to the photoreceptors

Question 23

What does the outer nuclear layer contain?

Answer 23

The photoreceptor cell bodies

Question 24

What does the outer plexiform layer contain?

Answer 24

It’s where the photoreceptor, horizontal, and bipolar cells synapse

Question 25

What does the inner nuclear layer contain?

Answer 25

It’s where the bipolar, amacrine and retinal ganglion cells synapse

Question 26

What does the retinal ganglion cell layer contain?

Answer 26

The retinal ganglion cell bodies

Question 27

What does the optic nerve layer contain?

Answer 27

The ganglion cell axons travelling to the optic disc

Question 28

Describe the organisation of the retina is cephalopods

Answer 28

A single layer of photoreceptor cells and supporting cells
Light strikes the photoreceptors directly without passing through multiple layers
No interneurons thus no signal processing in the retina

Question 29

Did the cephalopod and vertebrate eye evolve independently?

Answer 29

Yes

Question 30

Describe rods

Answer 30

Contain many photopigments and are very sensitive

Question 31

Describe the conditions and results of light hitting rods

Answer 31

Active under dim light and can’t discriminate colours

Question 32

Describe cones

Answer 32

Less photopigment

Question 33

Describe the conditions and results of light hitting cones

Answer 33

Can detect colours and active under stronger light

Question 34

What is the photopigment in rods called?

Answer 34

Rhodopsin

Question 35

What is the light receptor in rods called?

Answer 35

11-cis retinal

Question 36

How does 11-cis retinal work?

Answer 36

It absorbs a photon of light and rotates to form all-trans-retinal

Question 37

What is rhodopsin in its constituent parts?

Answer 37

11-cis retinal and the protein opsin

Question 38

Where is rhodopsin located?

Answer 38

In the membrane disks of the rod photoreceptors

Question 39

Describe the state of vertebrate photoreceptor cells when unstimulated

Answer 39

Vertebrate photoreceptor cells are depolarised when unstimulated

Question 40

Describe the state of vertebrate photoreceptor cells when stimulated with light

Answer 40

They are hyperpolarised

Question 41

What does a stronger light stimulus do to the membrane potential in vertebrate photoreceptor cells?

Answer 41

A stronger light stimulus leads to a more negative membrane potential

Question 42

When do photoreceptor cells release transmitter?

Answer 42

In the dark

Question 43

What is the transmitter photoreceptor cells release?

Answer 43

Glutamate

Question 44

Describe the process of transduction

Answer 44

In the absence of light Na+ channels are open and create a depolarising dark current
Rhodopsin absorbs light energy
This activates a G protein (transducin) that activates PDE
Activated PDE hydrolyses cGMP causing Na+ channels to close and the cell to hyperpolarise

Question 45

What is a receptive field?

Answer 45

Where 1 bipolar cell is connected to more than one photoreceptor in the retina

Question 46

What is the benefit of receptive fields in the retina?

Answer 46

There are many more photoreceptors than neurons in the retina

Question 47

What are the 2 types of receptive fields?

Answer 47

OFF and ON centre

Question 48

How are OFF and ON centre receptive fields categorised?

Answer 48

By the type of retinal ganglion cells beneath the photoreceptor layer

Question 49

Describe ON centre, OFF surround RGCs

Answer 49

They respond to light stimuli in the photoreceptors surrounding the centre of the receptive field

Question 50

Describe OFF centre, ON surround RGCs

Answer 50

They respond to light stimuli in the photoreceptors at the centre of the receptive field

Question 51

How are ON and OFF centre RGCs physiologically distinct?

Answer 51

They respond to light falling on their receptive field differently

Question 52

How are ON and OFF centre RGCs anatomically different?

Answer 52

The dendrites branch out in separate sub-layers of the retina and they receive synaptic inputs from different subclasses of bipolar cells

Question 53

Where do the signals from the RGCs go?

Answer 53

They remain segregated in the retina and thalamus and then merge in the primary visual cortex

Question 54

Describe lateral inhibition in an ON centre RGC

Answer 54

The action potentials arrive at the lateral geniculate nucleus (LGN) in the thalamus
Light hitting a photoreceptor in a receptive field leads to hyperpolarisation of all photoreceptors that receive a photon
In an ON centre RGC, if there is a concentration of light at the centre of the receptive field, negative feedback signals in the horizontal cells depolarise the surrounding photoreceptor cells and further hyperpolarise the centre cell
Combining lots of these RGCs emphasises edges over block colour

Question 55

What is the mach band effect?

Answer 55

The combined effect of lateral inhibition across multiple receptive fields emphasises edges
The contrast at the edges of each neighbouring band is increased
The illusion makes the bands appear slightly concave

Question 56

Why do we need multiple cone receptors?

Answer 56

Multiple cone receptors are an evolutionary advantage to allow better discrimination between objects

Question 57

What wavelengths of EM radiation can humans detect?

Answer 57

Between 350nm and 750nm

Question 58

How many colours can humans detect?

Answer 58

10 million

Question 59

What is trichromatic colour vision

Answer 59

Only have 3 specialised cones- blue, green and red