Visual 2

Question 1

These are mores sensitive to light and have slow integration time

Answer 1

rods

Question 2

These have poor spatial resolution

Answer 2

rods

Question 3

These have more pigment and are less directionally sensitive

Answer 3

rods

Question 4

These are less sensitive to light and have fast integration time

Answer 4

cones

Question 5

These give us high spatial resolution

Answer 5

cones

Question 6

These hae less pigments and are directionally sensitive

Answer 6

cones

Question 7

Per eye you have______ rods

and ____cones

Answer 7

100 million

5 million

Question 8

Key dif btwn rods and cones are rods

Answer 8

saturate

Question 9

At low levels of light, rod …

Answer 9

reaches its max response, at room level, rods are saturated

Question 10

Most of the time,vision is based on

Answer 10

cones or 5% of photoreceptors

Question 11

Photorecetpors _____ in response to light

Answer 11

hyperpolarize

Question 12

Photopigment =

Answer 12

chomophore + opsin

Question 13

Chromophore conformation is

Answer 13

11-cis retinal

Question 14

photopig is embedded in

Answer 14

OS layer (80% OS is photopigment)

Question 15

11-cis-retinal absobs light at

Answer 15

375 nm

Question 16

Opsin will “_____” absorption spectrum

Answer 16

red shift

Question 17

Changes in chromophore will….

Answer 17

initiate transduciton

Question 18

what kind of protein receptor is photopigmetn

Answer 18

GPCR with chormophore burried in middle

Question 19

rods absorb strongest in

Answer 19

blue-green

Question 20

photopigments are characterized by:

Answer 20

efficiency with which they absorb light of diff wavelengths

Question 21

photoreceptors cant register the wavelenth of photons the catch “the output depends on quantum catch, but not upon WHICH quanta are caught”

Answer 21

concenpt of univariance

Question 22

Photoreceptors are _______

Answer 22

colorblind

Question 23

How do we tell what dif types of colors we see

Answer 23

photoreceptors give input to ganglion cell based on quantam catch

Question 24

Once we absorb light, begin phototransduction which begins with:

Answer 24

Isomerization: shift from 11-cis to all trans conformation as we slam against the transmembrane domain

Question 25

Isomerization from 11-cis chromophore to all trans will cause:

Answer 25

activaiton of opsin protein

Question 26

Once Opsin is activated, it will activate

Answer 26

transducin (g protein)

Question 27

Once transducine is activated it will

Answer 27

activate PDE

Question 28

PDE will do what to cGMP

Answer 28

turn it to GMP which closes ion channels

Question 29

low cGMP closes ion channels resulting in

Answer 29

hyperpolarization (inward flux of Ca++ and Na+ blocked)

Question 30

path of phototransduction

Answer 30

isomerization–>opsin–>transducin–>PDE–> takes cGMP to GMP–> results in hyperpolarization

Question 31

Where is atRAL reduced to all trans retionol (atROL)

Answer 31

outter segment via NADPH all trans retinal specific dehydrogenase

Question 32

this guy is a slave to photoreceptor regeneration

Answer 32

RPE

Question 33

this guy transferes at ROL across the IPM

Answer 33

IRBP

Question 34

which degernates first, cones or rods

Answer 34

rods, bc cones have alternate source of 11cRAL other then RPE

Question 35

viagra has this and can interfere with basic phototransduction and lead to changes in rod and cone OS function

Answer 35

PDE5 inhibitors

Question 36

light falling w/in receptive field of a neuron influences the activity of that neuron
every neuron that is higher order than the photoreceptor has a ‘field’ of photoreceptors that give it input

Answer 36

concentp of receptive field

Question 37

All photoreceptors will ______ in reponse to light

Answer 37

hyperpolarize

Question 38

when photoreceptors hyperpolarize they…

Answer 38

release less NT

Question 39

Photoreceptrs are _____ cells because light hitting them turns them_____

Answer 39

OFF

OFF

Question 40

when there is no light on a photreceptor it will

Answer 40

depolarize and release glutamate

Question 41

Photoreceptors hyper and depolarize in a ______ fashion and relase NT’s in the same manner

Answer 41

graded

Question 42

Photoreceptors do or do not produce action potentials

Answer 42

DO NOT!!!!

Question 43

When a cone is depolarized it will release

Answer 43

glutamate (ig it’s excitatory, but not always)

Question 44

Cones respond to light the same way, but single cone gives rise to

Answer 44

2 parallel pathways via connecting 2 dif bipolar cell types

Question 45

The bipolar cell that is “ON” center
Light in it’s receptive field results in _____
and they have ______ synase with cone

Answer 45

cell depolarizing

sign reversing

Question 46

On center bipolar cells have ______ contacts to coens

Answer 46

invaginating

Question 47

On center bipolar cells act like a

Answer 47

classical inhibitory synapse

Question 48

What will cause a hyperpolarizing effect on a ON center bipolar cell

Answer 48

glutamte that is released then the OFF center cell is in dark and depolarized

Question 49

OFF center bipolar cell will ______ when light hits the center of our OFF center photoreceptor

Answer 49

hyperpolarize

Question 50

The OFF center bipolar cell is considered _______ to the OFF center cone it synapses with

Answer 50

sign conserving

Question 51

OFF center bipolar cells have _____ contact with OFF center photoreceptor

Answer 51

flat/basal

Question 52

OFF center bipolar cells have _____ receptors

Answer 52

ionotropic

Question 53

ON center bipolar cells ahve ______ receptor

Answer 53

metaborotropic

Question 54

What is the point of parallel pathways

Answer 54

improved sensitivity
one provides info about stimuli that are brighter than background (ON-center) while the other provides info on stimuli dimmer then background (OFF-center)

Question 55

Bipolar cells talk to

Answer 55

1. Amacrine–for lateral connections
2. Ganglion cells–to produce AP
3. Parasol ganglions cells and midget ganglion cells

Question 56

large cells w/ large receptive fields, more transient and project to magno layers (only 10%)

Answer 56

parasol cells

Question 57

project to parvo layers, smaller cells w/ small receptive field and more sustained (make up 90%)

Answer 57

Midget ganglion cells

Question 58

Two parallel bipolar cells connect to

Answer 58

like minded ganglion cell (sign-conserving)

Question 59

Photoreceptors are completely synpaptically interconnected by an elaborate system of inhibitory interneurons called

Answer 59

horiozontal cells

Question 60

these guys laterally interconnect cones with other cones

Answer 60

horizontal cells

Question 61

every cone has a recipricol ______ synaptic relationship with all its neighbors

Answer 61

inhibitory

Question 62

When a cone is excited (depolarized) it _____ horizontal cells it synpases with

Answer 62

excites

Question 63

Excited horizontal cells will _______ neighbor cones via ______

Answer 63

inhibit

GABA

Question 64

the action of a depolarized horizontal cells is to

Answer 64

hyperpolarize the cones it synapses with

Question 65

The result of horiztonal cells is

Answer 65

enhanced edges

Question 66

Lateral inhibition gives us

Answer 66

imporoved resolution: increaes our ability to recognize edges

Question 67

Neurons responding to edge of a stimulus respond ______ then neurons responding to middle

Answer 67

more strongly

Question 68

Edge neurons recieve inhibition from neighbros on only one side, the side____

Answer 68

away from edge

Question 69

Neurons stimulated from the middle of a surface get:

Answer 69

inhibition from all sides

Question 70

Light falling in the region surrounding the photoreceptor, but not directly on it, turns the photoreceptor

Answer 70

ON

Question 71

What is our protein component of our rods

Answer 71

rhodopsin

Question 72

Rhodopsin mutations will alter _____ fnx

Answer 72

rod

Question 73

Rhodopsin mutations can

Answer 73

disrupt transport to OS, be retained in ER and affect stability of post-translation modification thus get constituitve activation

Question 74

characterized by progressive loss of rod and cone receptors with accompying vision loss

Answer 74

Retinitis pigmentosum

Question 75

Nighblindness is early symptoms with progressive constriction of visual field

Answer 75

RP

Question 76

Inheritence of RP

Answer 76

X-linked autosomal dom or recessive

Question 77

pigments that migrate from the RPE and adhere to blood vessels in RP will affect this first

Answer 77

rods

Question 78

most common form of deaf/blindness

Answer 78

Usher

Question 79

progressive vision/hearing loss, reduced odor identification, vestibular dysfuntion d/t motor proteins

Answer 79

Usher

Question 80

Usher is dt defects in

Answer 80

sensory cilia, core of sterocilical

Question 81

Congenital defects are
\_\_\_\_ at birth
same/worse though life
can/cannot be classified easily
affects one or both eyes equally

Answer 81

present at brith
same through life
can be classified
both eyes equal

Question 82

visual aquity is often unaffected with confenital color vision defects: t/f

Answer 82

true

Question 83

congenital vision affects males or females more

Answer 83

males

Question 84

congentical color vision defects is usuallY;

Answer 84

protan or deutan

Question 85

Aquired color vision:
Onset\_\_\_\_
type and severity\_\_\_\_\_
\_\_\_\_\_ differences occur
Visual acuity is \_\_\_\_\_\_
Predominately\_\_\_\_\_
affects males/females

Answer 85

after birth
type and severity fluctuates
Monocular diff occur (not both eyes same)
reduced visual aquity
predom tritan
equal in male and female

Question 86

Achromoatopsia causes defect in:

Answer 86

CNG-betta, CNGA-3, GNAT2 (transducin)

Question 87

In achromatopsia cones:

Answer 87

cannot hyperpolarize in resposne to light

Question 88

affected ind w/ achromatopsia have:

Answer 88

no cone function