Mam in recessive epistasis , recessive genotype of one gene suppresses both the alleles ( dominant and recessive ) of other gene. So in the example given in the video recessive genotype of gene A that is aa is suppressing the action of both the alleles of gene B right ?
Good day! Can you further elaborate the difference between dominant epistasis and dominant inhibitory epistasis aside from their phenotypic ratios? I'm still a little bit confused on how their process is different from each other. Thank you so much for your answer!
I am providing two examples to explain. Dominant epistasis: W (White) is dominant to w and epistatic to alleles G (Yellow) and g (Green). wwGg is Yellow, wwgg is green. Dominant inhibitory epistasis: I (Green) is dominant to i and epistatic to alleles P (Purple) and p. iiPp is Purple, iipp is green. Here p doesn’t express even in homozygous conditions (even when there is no I). This part is unique. Rest are same in these two mechanisms.
Mam in recessive epistasis , recessive genotype of one gene suppresses both the alleles ( dominant and recessive ) of other gene. So in the example given in the video recessive genotype of gene A that is aa is suppressing the action of both the alleles of gene B right ?
Very good explanation but you mistakenly added a duplicate epistasis title to duplicate recessive one...
Ur explaination is v nyc mam Helps a lot ❤ur voice too ❤
Thank you dear
Crystal clear explanation mam ❤😊
Thank you dear
Good day!
Can you further elaborate the difference between dominant epistasis and dominant inhibitory epistasis aside from their phenotypic ratios? I'm still a little bit confused on how their process is different from each other.
Thank you so much for your answer!
I am providing two examples to explain. Dominant epistasis: W (White) is dominant to w and epistatic to alleles G (Yellow) and g (Green). wwGg is Yellow, wwgg is green.
Dominant inhibitory epistasis: I (Green) is dominant to i and epistatic to alleles P (Purple) and p.
iiPp is Purple, iipp is green. Here p doesn’t express even in homozygous conditions (even when there is no I). This part is unique. Rest are same in these two mechanisms.
Oh, I see, thank you very much for the clarification😊🫶
Great educational channel
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Good information 🎉
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Thank you so much
Now my concept become clear
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You number please
Your explanations are very clear and easy. Thank you.
Welcome dear