MC

0f5f_e31b

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 480 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 252228
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. heterozygous female (+w) and wildtype male (+–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Correct D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. heterozygous female (+w) and mutant male (w–) Incorrect MC

aba4_9afe

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 109106
white-eyed (mutant) 81104

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. heterozygous female (+w) and mutant male (w–) Correct MC

381a_9afe

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 1790
white-eyed (mutant) 0181

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Correct D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. heterozygous female (+w) and mutant male (w–) Incorrect MC

e88d_4a1e

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 208192
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Correct B. heterozygous female (+w) and mutant male (w–) Incorrect C. heterozygous female (+w) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

e7a3_7894

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 600 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 310148
white-eyed (mutant) 0142

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. heterozygous female (+w) and wildtype male (+–) Correct C. homozygous wildtype female (++) and male of unknown genotype Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

e319_cd27

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 164196

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. heterozygous female (+w) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Correct MC

3d19_1d02

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 177183
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. heterozygous female (+w) and mutant male (w–) Incorrect D. homozygous wildtype female (++) and male of unknown genotype Correct E. heterozygous female (+w) and wildtype male (+–) Incorrect MC

f4f5_8e8c

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 480 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 112128
white-eyed (mutant) 118122

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. heterozygous female (+w) and mutant male (w–) Correct MC

b1ea_d06a

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 240 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 1320
white-eyed (mutant) 0108

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Incorrect B. heterozygous female (+w) and wildtype male (+–) Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Correct D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

4f47_ec95

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 211189
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. heterozygous female (+w) and mutant male (w–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Correct D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

7b93_c428

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 17384
white-eyed (mutant) 0103

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. heterozygous female (+w) and mutant male (w–) Incorrect C. heterozygous female (+w) and wildtype male (+–) Correct D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

2f56_16cc

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 480 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 249231

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Correct B. homozygous mutant female (ww) and wildtype male (+–) Incorrect C. heterozygous female (+w) and mutant male (w–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

df33_d54b

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 480 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 229251
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. heterozygous female (+w) and mutant male (w–) Incorrect C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Correct MC

aa06_b969

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 600 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 156138
white-eyed (mutant) 152154

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Correct B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

a62c_abd1

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 160 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 870
white-eyed (mutant) 073

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Incorrect B. homozygous mutant female (ww) and wildtype male (+–) Correct C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. heterozygous female (+w) and wildtype male (+–) Incorrect MC

7ff0_892d

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 160 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 6991
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Correct C. heterozygous female (+w) and mutant male (w–) Incorrect D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

4436_1cf6

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 600 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 290141
white-eyed (mutant) 0169

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. heterozygous female (+w) and wildtype male (+–) Correct MC

bee8_ca4a

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 240 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 121119

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Incorrect B. heterozygous female (+w) and mutant male (w–) Incorrect C. heterozygous female (+w) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and mutant male (w–) Correct E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

9113_d829

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 240 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 107133
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Correct B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. heterozygous female (+w) and wildtype male (+–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

510c_6fef

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 320 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 8277
white-eyed (mutant) 8279

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Correct B. homozygous mutant female (ww) and wildtype male (+–) Incorrect C. heterozygous female (+w) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

b119_b24a

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 200 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 880
white-eyed (mutant) 0112

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Correct B. heterozygous female (+w) and mutant male (w–) Incorrect C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

2c31_8b3e

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 240 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 121119
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Correct B. heterozygous female (+w) and mutant male (w–) Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. heterozygous female (+w) and wildtype male (+–) Incorrect MC

1b94_00e9

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 240 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 12448
white-eyed (mutant) 068

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Incorrect B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. heterozygous female (+w) and wildtype male (+–) Correct MC

e384_035b

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 196204

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. heterozygous female (+w) and wildtype male (+–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Incorrect D. homozygous mutant female (ww) and mutant male (w–) Correct E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

5824_00e9

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 600 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 316284
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Correct B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. heterozygous female (+w) and wildtype male (+–) Incorrect MC

1f16_cfd6

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 200 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 4648
white-eyed (mutant) 5848

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. heterozygous female (+w) and wildtype male (+–) Incorrect C. heterozygous female (+w) and mutant male (w–) Correct D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

3a2c_4cb8

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 320 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 1540
white-eyed (mutant) 0166

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. heterozygous female (+w) and mutant male (w–) Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Correct D. homozygous wildtype female (++) and male of unknown genotype Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

16be_0562

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 320 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 163157
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Correct C. heterozygous female (+w) and wildtype male (+–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

df87_37c0

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 18693
white-eyed (mutant) 081

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Correct B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Incorrect D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. heterozygous female (+w) and mutant male (w–) Incorrect MC

5de6_ec95

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 187173

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. heterozygous female (+w) and mutant male (w–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Correct MC

673b_1941

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 320 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 162158
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Correct B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. heterozygous female (+w) and mutant male (w–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

d7b3_f855

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 480 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 129121
white-eyed (mutant) 108122

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Correct B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

854a_5e06

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 600 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 3080
white-eyed (mutant) 0292

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Correct MC

2c31_4762

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 240 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 121119
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Correct MC

8610_4779

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 20098
white-eyed (mutant) 0102

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Correct B. heterozygous female (+w) and mutant male (w–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Incorrect D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

e319_ac4f

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 164196

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. homozygous mutant female (ww) and mutant male (w–) Correct C. homozygous wildtype female (++) and male of unknown genotype Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

bd0d_f7b4

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 160 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 7981
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. heterozygous female (+w) and wildtype male (+–) Incorrect D. homozygous wildtype female (++) and male of unknown genotype Correct E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

90a6_c428

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 480 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 108128
white-eyed (mutant) 113131

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. heterozygous female (+w) and mutant male (w–) Correct C. heterozygous female (+w) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

6983_0391

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 480 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 2390
white-eyed (mutant) 0241

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. homozygous mutant female (ww) and wildtype male (+–) Correct C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

6fa3_1ee5

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 176184
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Correct C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

7322_4413

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 17989
white-eyed (mutant) 092

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. heterozygous female (+w) and mutant male (w–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Correct E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

9c0d_16e1

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 320 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 151169

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. homozygous mutant female (ww) and wildtype male (+–) Incorrect C. homozygous mutant female (ww) and mutant male (w–) Correct D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

23b8_1d02

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 209191
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. heterozygous female (+w) and mutant male (w–) Incorrect D. homozygous wildtype female (++) and male of unknown genotype Correct E. heterozygous female (+w) and wildtype male (+–) Incorrect MC

8fc3_720e

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 200 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 4847
white-eyed (mutant) 5352

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Correct B. heterozygous female (+w) and wildtype male (+–) Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

6292_157b

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 1860
white-eyed (mutant) 0174

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. homozygous mutant female (ww) and wildtype male (+–) Correct C. heterozygous female (+w) and wildtype male (+–) Incorrect D. homozygous wildtype female (++) and male of unknown genotype Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

d9ec_05a7

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 187173
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. heterozygous female (+w) and wildtype male (+–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Correct D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. heterozygous female (+w) and mutant male (w–) Incorrect MC

af92_5422

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 20093
white-eyed (mutant) 0107

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. homozygous mutant female (ww) and wildtype male (+–) Incorrect C. heterozygous female (+w) and wildtype male (+–) Correct D. homozygous wildtype female (++) and male of unknown genotype Incorrect E. heterozygous female (+w) and mutant male (w–) Incorrect MC

bfe7_95e9

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 600 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 314286

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Incorrect B. homozygous mutant female (ww) and wildtype male (+–) Incorrect C. heterozygous female (+w) and wildtype male (+–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Correct MC

74d3_6bcf

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 600 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 283317
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. homozygous mutant female (ww) and mutant male (w–) Incorrect C. heterozygous female (+w) and mutant male (w–) Incorrect D. homozygous wildtype female (++) and male of unknown genotype Correct E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

a119_d4d3

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 200 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 5247
white-eyed (mutant) 4754

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. heterozygous female (+w) and mutant male (w–) Correct MC

4d88_4413

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 1670
white-eyed (mutant) 0193

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. heterozygous female (+w) and mutant male (w–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Correct MC

4c41_4413

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 186214
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Correct C. heterozygous female (+w) and mutant male (w–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

4e82_9089

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 320 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 15379
white-eyed (mutant) 088

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Incorrect B. heterozygous female (+w) and wildtype male (+–) Correct C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. homozygous mutant female (ww) and wildtype male (+–) Incorrect MC

c2c2_720e

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 208192

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. heterozygous female (+w) and wildtype male (+–) Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and mutant male (w–) Correct E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

21c3_cd27

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 160 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 7882
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Correct C. heterozygous female (+w) and wildtype male (+–) Incorrect D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

1858_81bc

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 480 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 117121
white-eyed (mutant) 128114

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Incorrect B. heterozygous female (+w) and wildtype male (+–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Incorrect D. heterozygous female (+w) and mutant male (w–) Correct E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

3989_cfd6

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 200 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 1020
white-eyed (mutant) 098

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and wildtype male (+–) Correct B. heterozygous female (+w) and wildtype male (+–) Incorrect C. heterozygous female (+w) and mutant male (w–) Incorrect D. homozygous mutant female (ww) and mutant male (w–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Incorrect MC

5079_e2ec

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 320 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 154166
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. heterozygous female (+w) and mutant male (w–) Incorrect C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. homozygous wildtype female (++) and male of unknown genotype Correct MC

e930_5422

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 360 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 18091
white-eyed (mutant) 089

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. homozygous mutant female (ww) and wildtype male (+–) Incorrect C. heterozygous female (+w) and wildtype male (+–) Correct D. homozygous wildtype female (++) and male of unknown genotype Incorrect E. heterozygous female (+w) and mutant male (w–) Incorrect MC

5706_00e9

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 320 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 00
white-eyed (mutant) 163157

What are the genotypes of the parents in this cross?

A. homozygous wildtype female (++) and male of unknown genotype Incorrect B. homozygous mutant female (ww) and mutant male (w–) Correct C. homozygous mutant female (ww) and wildtype male (+–) Incorrect D. heterozygous female (+w) and mutant male (w–) Incorrect E. heterozygous female (+w) and wildtype male (+–) Incorrect MC

4bcb_830f

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 600 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 306294
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. heterozygous female (+w) and wildtype male (+–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Correct D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect MC

6c4f_b76b

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 400 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 11192
white-eyed (mutant) 10988

What are the genotypes of the parents in this cross?

A. homozygous mutant female (ww) and mutant male (w–) Incorrect B. homozygous mutant female (ww) and wildtype male (+–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Incorrect D. heterozygous female (+w) and wildtype male (+–) Incorrect E. heterozygous female (+w) and mutant male (w–) Correct MC

da0b_c589

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 480 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 2480
white-eyed (mutant) 0232

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and wildtype male (+–) Incorrect B. homozygous wildtype female (++) and male of unknown genotype Incorrect C. homozygous mutant female (ww) and mutant male (w–) Incorrect D. homozygous mutant female (ww) and wildtype male (+–) Correct E. heterozygous female (+w) and mutant male (w–) Incorrect MC

bd0d_830f

The white-eyed phenotype is an X-linked recessive disorder in fruit flies. The red allele, +, is dominant to the white allele, w. The offspring of size 160 from the mating of a single female and a single male are shown in the table below:

phenotypefemale ♀male ♂
red-eyed (wildtype) 7981
white-eyed (mutant) 00

What are the genotypes of the parents in this cross?

A. heterozygous female (+w) and mutant male (w–) Incorrect B. heterozygous female (+w) and wildtype male (+–) Incorrect C. homozygous wildtype female (++) and male of unknown genotype Correct D. homozygous mutant female (ww) and wildtype male (+–) Incorrect E. homozygous mutant female (ww) and mutant male (w–) Incorrect