In the snail Cepaea nemoralis, an autosomal allele causing a banded shell (B ) is recessive...
In the snail Cepaea nemoralis, an autosomal allele causing a banded shell (B ) is recessive to the allele for unbanded shell (O ). Genes at a different locus determine the background color of the shell; here, yellow (Y ) is recessive to brown (Bw ). A banded, yellow snail is crossed with a homozygous brown, unbanded snail. The F1 are then crossed with banded, yellow snails (a testcross). What will be the phenotypic classes resulting from a testcross if the loci that control banding and color are linked with no crossing over?
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In the snail Cepaea nemoralis, an autosomal allele causing a
banded shell (B ) is recessive...
In the Eruopean Land snail, multipe alleles at a single locus determine shell color. The allele...
In the Eruopean Land snail, multipe alleles at a single locus determine shell color. The allele for brown (SB) is dominant to the allele for pink (SP) and to the allele for yellow (SY). PInk is recessive to brown, but dominant to yellow. a. In a population of 1000 snails, 160 are yellow. Assuming the populations is Hardy-Weinberg Equilibrium, calculate th frequency of the yellow allele, r = f(SY) = ? b. Given that p = f(SB) = 1. Calculate...
In mice, an allele for apricot (a) eyes is recessive to an allele for brown (A)...
In mice, an allele for apricot (a) eyes is recessive to an allele for brown (A) eyes. At an independently assorting locus, an allele for tan (t) coat color is recessive to an allele for black (T) coat color. A mouse that is homozygous for brown eyes and black coat color is crossed with a mouse having apricot eyes and a tan coat. The resulting F1 are intercrossed to produce the F2. What is the probability of an F2 mouse...
Question 23 2.86/2.86 pts In Drosophila yellow body color is caused by a sex-linked recessive allele...
Question 23 2.86/2.86 pts In Drosophila yellow body color is caused by a sex-linked recessive allele and brown eye color is an autosomal recessive trait. A phenotypically normal female fly, heterozygous for both genes, is crossed to a male with normal body color and brown eyes. What proportion of their offspring should have yellow body color and brown eyes? Correct! 1/B 1/3 1/4 1/2
36. The recessive autosomal maize genes sh and bz are linked and 40 map units apart,...
36. The recessive autosomal maize genes sh and bz are linked and 40 map units apart, If a plant with the genotype sh bz/ sh bz is selfed, what percentage of the progeny will be double recessive? 37. If the recombination frequency between the linked autosomal genes A and B in Drosophila is 15 percent, what phenotypic frequencies would you expect from a cross AB/ab females x AB/ab males? (There is no crossing over in Drosophila males). 38. In the...
Albino rabbits (lacking pigment) are homozygous for the recessive c allele (C allows pigment formation). Rabbits...
Albino rabbits (lacking pigment) are homozygous for the recessive c allele (C allows pigment formation). Rabbits homozygous for the recessive b allele make brown pigment, while those with at least one copy of B make black pigment. True-breeding black rabbits were crossed to albinos. F1 rabbits, which were all black, were crossed to the double recessive (bb cc). The progeny obtained were 40 black, 60 brown, and 100 albino. What phenotypic proportions would have been expected if the b and...
In Drosophila, the autosomal recessive brown eye color mutation (b) displays interactions with both the X-linked...
In Drosophila, the autosomal recessive brown eye color mutation
(b) displays interactions with both the X-linked recessive
vermilion mutation (v) and the autosomal recessive scarlet (s)
mutation. Flies homozygous for brown and simultaneously hemizygous
or homozygous for vermilion have white eyes. Flies simultaneously
homozygous for both the brown and scarlet mutations also have white
eyes. Flies that are wildtype at all 3 loci have wildtype eye
color. Flies that are homozygous or hemizygous for the recessive
mutant at only one...
Three linked autosomal loci were studied in smurfs. Locus Dominant Allele Recessive Allele Color Blue Pink...
Three
linked autosomal loci were studied in smurfs.
Locus
Dominant
Allele
Recessive
Allele
Color
Blue
Pink
Mood
Happy
Gloomy
Height
Tall
Dwarf
Pure breeding pink, happy, tall smurfs were mated to pure
breeding blue, gloomy, dwarf smurfs. The F1 were
testcrossed and the testcross progeny are given below.
Phenotype
Number
pink, happy, tall
532
blue, gloomy, dwarf
517
pink, gloomy, tall
97
blue, happy, dwarf
84
blue, happy, tall
103
pink, gloomy, dwarf
111
blue, gloomy, tall
14
pink, happy,...
10.) Tatuo Aida investigated the genetic basis of color variation in the Medaka (Aplocheilus latipes), a...
10.) Tatuo Aida investigated the genetic basis of color variation in the Medaka (Aplocheilus latipes), a small fish that occurs naturally in Japan (T. Aida. 1921. Genetics 6:554 573). Aida found that genes at two loci (B, b and R, r) determine the color of the fish: Fish with a dominant allele at both loci (B_R_ are brown, fish with a dominant allele at the B locus only (B_rr) are blue, fish with a dominant allele at the R locus...
Please answer the following two questions. Show all your work. Thanks in advance. 9. In Drosophila...
Please answer the following two questions. Show all your work. Thanks in advance. 9. In Drosophila yellow body color is caused by a sex-linked recessive allele and brown eye color is an autosomal recessive trait. A phenotypically normal female fly, heterozygous for both genes, is crossed to a male with normal body color and brown eyes. What proportion of their offspring should have yellow body color and brown eyes? A) 1/16 B) 1/8 C) 1/4 D) 3/16 E) 3/8 ANSWER:...
1) Coat color in mice is determined by several independently assorting autosomal genes. Gene A is...
1) Coat color in mice is determined by several independently assorting autosomal genes. Gene A is involved in the distribution of pigment along the hair. A dominant allele (A) produces a hair color called "agouti"--the hair has dark pigment at the base and tip of each hair shaft and yellow pigment in the central portion of the shaft. Homozygous recessive mice (aa) are missing the yellow stripe and thus have solid dark-colored hair. Gene B is involved in the color...
Question 23 2.86/2.86 pts In Drosophila yellow body color is caused by a sex-linked recessive allele and brown eye color is an autosomal recessive trait. A phenotypically normal female fly, heterozygous for both genes, is crossed to a male with normal body color and brown eyes. What proportion of their offspring should have yellow body color and brown eyes? Correct! 1/B 1/3 1/4 1/2
36. The recessive autosomal maize genes sh and bz are linked and 40 map units apart, If a plant with the genotype sh bz/ sh bz is selfed, what percentage of the progeny will be double recessive? 37. If the recombination frequency between the linked autosomal genes A and B in Drosophila is 15 percent, what phenotypic frequencies would you expect from a cross AB/ab females x AB/ab males? (There is no crossing over in Drosophila males). 38. In the...
In Drosophila, the autosomal recessive brown eye color mutation
(b) displays interactions with both the X-linked recessive
vermilion mutation (v) and the autosomal recessive scarlet (s)
mutation. Flies homozygous for brown and simultaneously hemizygous
or homozygous for vermilion have white eyes. Flies simultaneously
homozygous for both the brown and scarlet mutations also have white
eyes. Flies that are wildtype at all 3 loci have wildtype eye
color. Flies that are homozygous or hemizygous for the recessive
mutant at only one...
Three
linked autosomal loci were studied in smurfs.
Locus
Dominant
Allele
Recessive
Allele
Color
Blue
Pink
Mood
Happy
Gloomy
Height
Tall
Dwarf
Pure breeding pink, happy, tall smurfs were mated to pure
breeding blue, gloomy, dwarf smurfs. The F1 were
testcrossed and the testcross progeny are given below.
Phenotype
Number
pink, happy, tall
532
blue, gloomy, dwarf
517
pink, gloomy, tall
97
blue, happy, dwarf
84
blue, happy, tall
103
pink, gloomy, dwarf
111
blue, gloomy, tall
14
pink, happy,...
10.) Tatuo Aida investigated the genetic basis of color variation in the Medaka (Aplocheilus latipes), a small fish that occurs naturally in Japan (T. Aida. 1921. Genetics 6:554 573). Aida found that genes at two loci (B, b and R, r) determine the color of the fish: Fish with a dominant allele at both loci (B_R_ are brown, fish with a dominant allele at the B locus only (B_rr) are blue, fish with a dominant allele at the R locus...
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