0:00
Hello.
00:01
So let's answer now the question.
00:02
Okay, in this question, we are asked, okay, which, to what end can sensory receptors inhibit the neighboring receptors? so we have here option a, b, c, a, b, c, a, c, d, and e.
00:26
So we have here five options.
00:29
So let's start with option e.
00:30
Option e is not our answer, okay, because the increase in the activity, increasing the activity of the signal is somehow will launch a series of biochemical reactions within the cell.
00:55
Because once a receptor protein receives a signal, it undergoes conformational change, which again, launch a launcher.
01:03
A series of biological or biochemical reactions.
01:06
This is not the answer.
01:08
Next, we have here option d.
01:10
It states that improve the signal to noise ratio.
01:15
So option d is also a wrong statement.
01:19
It will not inhibit because improved the signal to noise ratio will cause the time averaging.
01:28
Okay.
01:29
And this time averaging can lead to an enhancement of the signal.
01:33
With respect to the noise known as signal -to -noise ratio.
01:38
So this is not the answer.
01:40
So this will not inhibit the neighboring receptors.
01:45
Next, we have here option c.
01:47
It states that ensure that only one type of receptor response...