00:01
Okay, one to answer this question we have to talk about non -mendelian inheritance, okay? non -mendelian inheritance patterns.
00:14
You remember that in mendelian inheritance, you're going to talk about dominant and recessive, okay? but in non -mendellian inheritance, you're going to have incomplete dominance, okay? and codominance, for example.
00:30
Remember that in mendelian, okay, in mendelian inheritance patterns, you have a dominant allele that is the capital letter and a recessive allele.
00:43
Okay, so for example, the genotypes, you have almost aigos dominant.
00:46
It is going to give the dominant phenotype.
00:50
Okay.
00:50
If you have a heterozygose, you're going to have also the a phenotype.
00:55
Why? because the dominant allele is present and it is going to give the phylogy even when the recesif allele is present.
01:01
And then you're going to have the homocyborosges that is going to code for that recessive phenotype.
01:07
But what happens in incomplete dominants? for example, in incomplete dominance, when you have the homozygous dominant dominant, it is also going to code for the dominant phenotype.
01:20
If you have the homocygous recessive, you're going to have the recessive phenotype.
01:26
But when you have the heterozygous, as this is incomplete dominance, you're going to have a blend between the a or the dominant and the recessive phenotypes.
01:37
It means, for example, if this is great and this is white, the a third or segment is not going to be great, but it is going to be a blend between red and white, it means it is going to be pink.
01:50
Okay, so it is going to be a new, a new phenotype.
01:54
Okay, that is a blend between the two others...