00:01
From the question they given us a elm nip pulse.
00:09
Regarding the elm nip pulse, which are known to have a light colored feather where they develop some of the black color but most of them has a white colored feather with some fleckled black color.
00:31
But when the two elminates were crossed, it lead to 48 progeny.
00:42
48 progeny is going to have about 22 which is about higher amount or known to be elminated color that is high amount of light color and some of the fleckles of black.
01:00
Where about 14 were found to be a pure black and 12 were found to be a pure white.
01:10
So, in this condition we have to identify what will be the genetic pattern to be occur and also we have to identify how to test the hypothesis of genetic pattern.
01:30
So, in this condition we can identify both the characters are going to be expressed, both the black color and white color is going to be expressed.
01:46
Therefore, the genetic pattern to be expressed can be found because of the expression of both phenotypes as dominant.
02:15
Therefore, both phenotypes as a dominant lead to we can find that this is known to be a co -dominance character.
02:30
Both the character are found to occur as a dominant character.
02:35
Therefore, it is known as co -dominance character.
02:37
Therefore, a genetic pattern of expression is known as co -dominance expression because here we can find the mixed pattern that is no dominant character can be found under this condition...