Vision

Question 1

the eye is design to

Answer 1

focus light on specialised nerve endings that translate light wave and photons into pictures our brink an understand

Question 2

light which reaches photoreceptors of the retina

Answer 2

and sends signals via the visual pathways tot he usual cortex in the occipital lobes

Question 3

human visible light wave lengths

Answer 3

400>550nm

Question 4

what makes up the ouster fibrous layer of the eye

Answer 4

cornea, conjunctiva and sclera

Question 5

middle vascular layer

Answer 5

iris, ciliary body and chorois

Question 6

inner neural layer

Answer 6

retain and single layer of retinal pigmented epithelium

Question 7

the lens

Answer 7

focuses light waves onto the retina and specifically the fovea

Question 8

iris

Answer 8

is a circular structure with a central opening - the pupil

Question 9

what divides the internal space into an anterior chamber in the front of the iris and a posterior chamber between the iris and the lens

Answer 9

iris

Question 10

posterior and anterior chambers

Answer 10

contain aqueous humour secreted by ciliary body

Question 11

vitreous humour

Answer 11

fills the main cavity of the eye behind the lens and helps maintain the shape of the eye

Question 12

central retinal artery

Answer 12

provides nutrients and oxygen for the retina

Question 13

central retinal vein

Answer 13

take away oxygen poor blood to be oxygenated

Question 14

tetina

Answer 14

light sensitive part f the ye containing photoreceptors

Question 15

fovea

Answer 15

is the most light sensitive part of the eye- most colour snesiitve

Question 16

optic nerve

Answer 16

where photoreceptors of the retina send signal via the visual pathways to the visual cortex i the occipital lobe

Question 17

optic nerve is famous as being

Answer 17

a blind spot- no photoreceptors

Question 18

the retina contains

Answer 18

the neuronal tissue of the eye

Question 19

5 types of neurones in the retina

Answer 19

rods, cones, amacrine, horizontal, bipolar cells

Question 20

the fovea only contains

Answer 20

cones- an area which provides high visual acuity

Question 21

rods are

Answer 21

Monochromatic vision
Low intensity light
Single photon
Equally distributed throughout the retina
rhodopsin as visual pigment

Question 22

cones

Answer 22

Colour vision
High light threshold
Higher acuity
Hundreds of photons
Clustered in the macula lutea 
Within the macula lutea is a clustered pit called the fovea, which only contains cones
Highest visual acuity is found here

Question 23

photoreceptors are locate

Answer 23

at the back of the retina

Question 24

order of neurones in the retina

Answer 24

photoreceptor synapses with bipolar cell with synapses with ganglion cell

Question 25

ganglion cells and bipolar cells are neurones where

Answer 25

signals from rods and cones are integrated

Question 26

rhodopsin

Answer 26

rods

Question 27

iodopsin

Answer 27

cones

- colour blindness results from defects in cone opsins

Question 28

phototransduction occurs via which G protein

Answer 28

Gt

Question 29

what does absorption of light do to colour pigments

Answer 29

isomerise them

-starting a cascade of chemical reactant

Question 30

photo transduction in rods

Answer 30

1) in the dark Sodium (ad calcium) ion influx though cGMP- controlled cation channels which depolarised the rod cells to about -40mV
2) when photon is absorbed by 11-cis retinal it is isomers to all trans retinal (photoisomerisation)
3) rhodopsin is activates and bind to a GTP-bound protein called transducin
4) The GTP-bound alpha submit of transducer dissociates and activates a phosphodiesterase with hydrolyses cGMP- 5’-CMP
5) this closes the cation channels causes hyperpolarisation

Question 31

when photoreceptors aren’t stimulated by light

Answer 31

depolarisation

- open cGMP channels

Question 32

when photoreceptors are stimulated by light

Answer 32

hyperpolarisation

-cGMP channels closed

Question 33

Bipolar cells connect photoreceptors to

Answer 33

ganglionic cells

Question 34

ganglionic cells

Answer 34

nerves leave the eye at the optic disk dn become the optic nerve

Question 35

horizontal cells

Answer 35

revive input from multiple photoreceptor cells

- regulated activity of photoreceptor cells and makes adjustments to signals sent to bipolar cells

Question 36

amacrine cells

Answer 36

receive signals form bipolar cells

-regulate and integrate bipolar and ganglionic cells

Question 37

which is the transmitter of the visual pathway

Answer 37

glutamate- the main excitatory nt in the brain

Question 38

phototransduction pathway

Answer 38

1) light travels through layers of transparent neurones- ganglion, amacrine, bipolar and horizontal
2) and is absorbed by the rods and cones a the back of the retina
30 visual information process through several layers of neurones
4) and finally converges on ganglion cells,which send their axons to the brain

Question 39

smaller receptive fields

Answer 39

e. g. 1 ganglion per photoreceptor

- lots of detail

Question 40

large receptive filed

Answer 40

e. g. 3 cones synapse with 1 ganglion
- summarises info from 3 cones
- less detail

Question 41

when photoreceptors are not stimulated by light

Answer 41

constant state of depolarisation

-constnat release of Glu

Question 42

when the centre of the cone is stimulated by light

Answer 42

the photoreceptor becomes activates

-stimulation result in hyper polarisation due to national channels being close– > less glutamate produced

Question 43

on centre cells

Answer 43

Glu is inhibitory

1) decrease in Glu release from cone due to hyper polarisation caused by light stimulation
2) due to less Glu inhibition, there is increased depolarisation of the bipolar cells
3) therefore the bipolar cells will release more Glu
4) glu is always excitatory for ganglionic cells
5) therefore INCREASE IN FIRING RATE

Question 44

off centre cells

Answer 44

Glu is excitatory

1) less Glu due to hyper polarisation of cone
2) therefore bipolar cell become hyper polarised
3) decrease in Glu release form bipolar cells
4) decreased firing rate of off-metre ganglionic cells

Question 45

direct pathway in darkness- on centre

Answer 45

Increase in glutamate is inhibitory
Therefore increase in MetabotropicGluReceptor
Therefore hyperpolarisation
Decrease in Glu release
Therefore ganglionic cell synapsing with it are less likely to reach threshold
Action potential is less likely.

Question 46

direct pathway in darkness - off centre

Answer 46

Excited by Glu
Therefore becomes more depolarized
Ganglion which synapses with cell is more likely to reach threshold
Increase in likelyhood of AP

Question 47

APs are less likely in

Answer 47

positive centre

Question 48

APs are more likely in

Answer 48

negative centre- tells us it is dark

Question 49

Direct pathway light- On-centre

Answer 49

Decrease in glutamate is excitatory
Therefore decrease in MetabotropicGluReceptor
Therefore more depolarization
Increase in Glu release
Therefore ganglionic cell synapsing with it are more likely to reach threshold
Action potential is more likely.

Question 50

Direct pathway light- Off-centre

Answer 50

Inhibited by decreased Glu
Therefore becomes more hyperpolarized and releases less Glu
Ganglion which synapses with cell is less likely to reach threshold
decrease in likelihood of AP

Question 51

indirect pathway no light

Answer 51

horizontal and amacrine cells release GABA- inhibitory- contributing to telling us it is dark

Question 52

indirect with light

Answer 52

Horizontal and amacrine cells release less GABA