In Drosophila, recessive mutations in the fruitless gene (fru) re...

Question

In Drosophila, recessive mutations in the fruitless gene (fru) result in males courting other males; and recessive mutations in the Antennapedia gene (Ant⁻) lead to defects in the body plan, specifically in the thoracic region of the body, where mutants fail to develop legs. The two genes map 15 cM apart on chromosome 3. You have isolated a new dominant Antdᵈ mutant allele that you induced by treating your flies with X-rays. Your new mutant has legs developing instead of antennae on the head of the fly. You cross your newly induced dominant Antᵈ mutant (a pure-breeding line) with a homozygous recessive fru mutant (which is homozygous wild type at the Ant⁺ locus), as diagrammed below:Provide a molecular explanation for the reason your new Antᵈ mutant is dominant and for its novel phenotype.

Accepted Answer

Hi, everybody. Let's look at our next problem. It says loss of the entire by thorax complex. Andros Sophal results in the a transformation of the identity of thoracic segment T three and abdominal segment A one into thoracic segment T two. Choice B. Transformation of the identity of all abdominal segments into thoracic segment T two choice C transformation of the identity of all abdominal segments into abdominal segment. A one or choice D transformation of the identity of abdominal segments A five to a eight into abdominal segment. A four. Well, to solve this problem, we want to think about the genes that are part of the thorax complex and which segments they affect. So I'm just going to put up a quick reminder of the different to hawks genes in and which segments they're involved in the development of. So in red, I've noted the antenna complex is composed of five genes. L A B PB D F D S C R and A N T P. And those five genes control the development of the head T one and T two. Those being thoracic segments then in blue, I have the by thorax complex which is composed of three genes U B X, then A B D capital A A B D capital B and these three genes control the development of the posterior part of segment T two, segment T three and then all the abdominal segments A one through a eight. So our mutation we're talking about is the loss of the entire bi thorax complex. So it's gonna affect the development of all of those posterior segments of the Drosophila starting with the posterior part of segment T two. And so our answer choice we're looking for is going to be choice B here, which is transformation of the identity of all abdominal segments into thoracic segment T two. Because basically starting with that posterior part of T two, nothing else is going to differentiate into its properer segment because it's going to fail to repress the antenna genes. And that's how these genes interact to create the segmentation is by repressing the genes that are expressed in other parts of the dyes Sophal. So let's look at our other answer choices to understand why they're not correct choice. A which has the transformation of the identity of thoracic segment T three and then segment A one into T two. Well, that's just talking about that very um sort of front part T three and A one. So that would be the case if you only had the loss of the U B X gene. So only affecting those two. But we know that we've lost all three genes of the bor complex. So that's why choice A isn't correct. Then choice C has a transformation of the identity of all abdominal segments into abdominal segment A one. And that would be if you just had lost uh that first abdominal gene A B D A. But again, we've lost all three. So that's why that's not correct. And finally, choice d, the transformation of the identity of segments A five to a eight into a four. And that would be just the loss of that last abdominal gene A B DB. So that's why that's not correct. So again, if we lost the whole by thorax complex, then that would result in choice B the transformation of the identity of all abdominal segments into thoracic segment T two. See you in the next video.

Struggling with Genetics?

Watch next

Developmental Patterning Genes practice set