9. With reference to eye color phenotypes produced by the recessive, autosomal, unlinked brown and scarlet...

In Drosophila, the X-linked recessive mutation vermillion (v) causes bright red eyes, in contrast to the...

In Drosophila, the X-linked recessive mutation vermillion (v) causes bright red eyes, in contrast to the brick-red eyes caused by the wild-type allele. A separate autosomal recessive mutation, brown (bw), causes flies to have brown eyes. Flies with both mutations have no eye pigmentation and are white-eyed. Determine the F1 and F2 phenotypic ratios for each sex from the following crosses: (a) vermillion females X brown males (b) wild-type females X white-eyed males

In Drosophila, the X-linked recessive mutation vermillion (v) causes bright red eyes, in contrast to the...

In Drosophila, the X-linked recessive mutation vermillion (v) causes bright red eyes, in contrast to the brick-red eyes caused by the wild-type allele. A separate autosomal recessive mutation, brown (bw), causes flies to have brown eyes. Flies with both mutations have no eye pigmentation and are white-eyed. Determine the F1 and F2 phenotypic ratios for each sex from the following crosses: (a) vermillion females X brown males (b) wild-type females X white-eyed males

In Drosophila, the gene for white (w) eyes is on the X chromosome and it is...

In Drosophila, the gene for white (w) eyes is on the X chromosome and it is epistatic over brown and scarlet. White eyes can also result by crossing brown-eyed females (bw) with scarlet eyed males (st) (that is, when both mutant alleles are present). A cross is made between white-eyed females with the genotype w//w (otherwise, homozygous for wild type alleles) and white-eyed males hemizygous for the wild type allele (w+ ). List the expected: a) Genotypes of the P1...

Please answer all the questions, they're related The autosomal recessive allele bw, for brown eyes in...

Please answer all the questions, they're related The autosomal recessive allele bw, for brown eyes in Drosophila interacts with the X-linked recessive allele, v, for vermilion eyes, since flies that are recessive for both genes have white eyes. Wild type flies have red eyes. What eye color phenotypes, in what proportions, would be expected in the progeny from a cross of a white-eyed female and a brown eyed male?  Choose the best answer. Select one: a. all females with brown eyes,...

In Drosophila, the gene for white (w) eyes is on the X chromosome and it is...

In Drosophila, the gene for white (w) eyes is on the X chromosome and it is epistatic over brown and scarlet. White eyes can also result by crossing brown-eyed females (bw) with scarlet eyed males (st) (that is, when both mutant alleles are present).A cross is made between white-eyed females with the genotype w//w (otherwise, homozygous for wild type alleles) and white-eyed males hemizygous for the wild type allele (w+ ). List the expected: a) Genotypes of the P1 and...

The sepia (se) eye mutation is a non-lethal recessive mutation located on chromosome III in Drosophila...

The sepia (se) eye mutation is a non-lethal recessive mutation located on chromosome III in Drosophila (it is not sex-linked, the sex chromosome is chromosome I). Predict the results of a monohybrid cross (F2 generation) with the following parents: a homozygous wild- type female fly and a male fly with sepia eyes. Use a se+ for wild type and se for the mutation. What are the Parental genotypes? ________ The F1 genotypes? _______ Draw a Punnett square to determine the...

task Black body color and scarlet eyes are determined by two-genes recessive alleles, which are located...

task Black body color and scarlet eyes are determined by two-genes recessive alleles, which are located on different auto-atoms in Drosophila melanogaster. A F1 she crossed from an intersection between the two pervasive tribes, "black body color" and "scarlet eyes", to an F1 male from a cross between the pervasive strains of "black body color" and "black body color with the scarlet-colored eyes". What phenotypes can you expect from the offspring of this crossing and what are the expected phenotype...

.  Eye color of the Oriental fruit fly (Bactrocera dorsalis) is determined by two genes that interact.  A...

.  Eye color of the Oriental fruit fly (Bactrocera dorsalis) is determined by two genes that interact.  A true-breeding fly having wild-type eyes is crossed with a true-breeding fly having yellow eyes.  All of the F1 flies from this cross have wild-type eyes.  When the F1 flies are interbred, 394 of the F2 progeny have wild-type eyes, 131 have amethyst (a bright, sparkling blue color) eyes and 175 have yellow eyes. a).  Based on the number of progeny produced in the cross between F1 flies,...

In fruit fly: The w+ allele causes wild-type eye color, while the w allele causes a...

In fruit fly: The w+ allele causes wild-type eye color, while the w allele causes a recessive white-eyed trait. The y+ allele cause wild-type body color, while the y allele causes a recessive yellow-body trait. The two parents in a cross are: Parent 1: w+y+/w+y+ Parent 2: wy/wy If their F1 progeny are crossed to wy/wy flies, then which of the following phenotypes among F2s must represent a recombinant? Options: A- white eyed and wild type body B. white eyed...

A cross is made between homozygous fruit flies that differ for eye color (the st gene)...

A cross is made between homozygous fruit flies that differ for eye color (the st gene) and body color (the e gene). The F1 double heterozygote is shown below using chromosome notation. st+ e / st e+ st = the recessive allele for scarlet eyes; st+ = the dominant wildtype allele for red eyes e = the recessive allele for ebony body; e+ is the dominant wildtype allele for gray body.Are the chromosomes shown in the genotype above in cis...