Human Physiology, 14th edition (2016)

302 Chapter 10

Figure 10.41 The effects of light on the retina. ( a ) In the dark, the continuous dark current (1) depolarizes the
photoreceptors and causes them to (2) release inhibitory neurotransmitter at their synapses with bipolar cells. ( b ) In the light, (3) cGMP
declines (due to its conversion to GMP), stopping the dark current and hyperpolarizing the photoreceptors. As a result, (4) the release
of inhibitory neurotransmitter is stopped. Because they are not inhibited in the light, (5) bipolar cells release excitatory neurotransmitter
at their synapses with ganglion cells so that the ganglion cell axons are stimulated to produce action potentials.

Inner

segment

Outer

segment

Rod

In Dark

Dark current

Na+/K+

pump

cGMP

Na+

Na+

K+

K+

K+^ channel

Bipolar cell does

not stimulate

ganglion cell

(a) (b)

Release of inhibitory

neurotransmitter

continuous in the dark

Na+^ channel kept

open by cGMP

Na+

K+

K+

Inner

segment

Outer

segment

Rod

Bipolar

cell

Bipolar

cell

Ganglion

cell

Ganglion

cell

In Light

Dark current stops

cGMP

GMP

Na+/K+^ pumps continue

Loss of cations causes

rod to become

hyperpolarized,

inhibiting its release

of neurotransmitter

No inhibitory

neurotransmitter

Release of excitatory

neurotransmitter

(glutamate) stimulates

ganglion cell

Decline in cGMP closes

Na+^ channel

1

2

3

4

5