Visual System Part III: Retinal Processing

Question 1

T or F?

Hyperpolarization of photoreceptor (PR) cells by light results in decreased release of glutamate.

Answer 1

True

Question 2

Light stimulation of opsin pigment in PR cells leads to opening or closure of Na+ channels?

Answer 2

Closure of Na+ channels

Question 3

T/F?

Light hyperpolarizes and dark depolarizes

Answer 3

True

Question 4

Are OFF cells excited or inhibited by glutamate?

Answer 4

Excited

Question 5

ON bipolar cells become ______polarized by glutamate, resulting in ___creased glutamate release

Answer 5

Hyperpolarized

Decreased

Question 6

ON bipolar cells become ______polarized by LESS glutamate, resulting in ___creased glutamate release

Answer 6

Depolarized

Increased

Question 7

ON ganglion cells are activated in the _________ (presence/absence) of light in the center of the retinal field.

Answer 7

Presence

Question 8

OFF ganglion cells are _________ (activated/inhibited) in the presence of light in the center of the retinal field.

Answer 8

Inhibited

Question 9

With darkness in the center of the RF, photoreceptors release more/less glutamate?

Answer 9

More

Question 10

In darkness, OFF bipolar cells respond to increased glutamate by releasing ______ (more/less) glutamate. This is _________ (excitatory/inhibitory) to the OFF ganglion cell.

Answer 10

More glutamate

Excitatory

Question 11

In the LIGHT, ___ bipolar cells are inhibited and ___ bipolar cells are excited.

Answer 11

OFF - inhibited

ON - excited

Question 12

In the DARK, ___ bipolar cells are inhibited and ___ bipolar cells are excited.

Answer 12

ON - inhibited

OFF - excited

Question 13

Is there an active or a passive response to darkness in the retina?

Answer 13

Active

Question 14

What is a receptive field?

Answer 14

Circular area of retina organized into concentric rings. Inner receptors (receptive field center) activate ganglion cells one way and surrounding region (receptive field surround) activates ganglions in the opposite way.

Question 15

What is the difference between ON-center retinal ganglion cells and OFF-center retinal ganglion cells?

Answer 15

ON-center= respond to light spots on a dark background
OFF-center= respond to dark spots on a light background

Question 16

What is the difference between a direct and an indirect pathway of signal transmission in the retina?

Answer 16

Direct = PR cell (central) --> Bipolar cell
Indirect = PR cell (peripheral) --> Horizontal cell --> Bipolar cell

Question 17

Light shown onto receptive field surround will do what to ON-bipolar and ON-ganglion cells?

Answer 17

Inhibition

Question 18

What do horizontal cells do?

Answer 18

Reverse the activity of the receptors in the center. Lateral inhibition.

Question 19

What is the dual effect of shining light onto the surround receptive field?

Answer 19

1. Light in the surround area stimulates horizontal cells to release glutamate to activate OFF cells
2. Light activates horizontal cells that inhibit the ON cells that normally respond to light

Question 20

Why is there little activity of ganglion cells in a receptive field whose center and surround are both fully exposed to light?

Answer 20

There is no contrast.
The center will react to light (ON). The surround will inhibit this response (activate OFF, inhibit ON). The result is little activity.
(same thing but opposite for all dark)

Question 21

How do you maximize firing of an ON-center OFF-surround ganglion cell receptive field?

Answer 21

Expose as much as possible of the center to light. Expose as much as possible of the surround to dark (without causing dark over the center).
Center ON cells will fire with light. Surround OFF cells will be inhibited and ON cells will be more activated (by horizontal cells).

Question 22

What do center-surround fields enable ganglion cells to do?

Answer 22

Encode contrast. Rate of activity indicates amount of contrast between surround and center part of its RF.

Question 23

What kind of visual feature enhances retinal ganglion cell recognition of contrast?

Answer 23

Edges

Question 24

How do ganglion cells code color?

Answer 24

Reciprocal excitation-inhibition by various cones with different pigments differentiates colors. Ganglion cells are stimulated by one color and inhibited by others.
i.e. Red ON center, Green OFF surround form a red/green ganglion cell RF.

Question 25

T/F?

Rods are primarily found in the peripheral part of retina and code for color.

Answer 25

False.

Rods are in periphery but do not code for color

Question 26

T/F?

Cones are only found in the fovea

Answer 26

False.

Cones are primarily found in the fovea but there is a thin layer of cones spread out over the rest of the retina.

Question 27

Why does shining a light over an entire ON-center OFF-surround receptive field result in low activity/firing of ganglion cells?

Answer 27

The ON-center cells will be activated by light. But the OFF-surround cells will reverse that because the horizontal cells will cause OFF cells to be activated and ON cells to be inhibited. This negates the ON cell firing from the center.