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bbq-poisson_flies.txt
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bbq-poisson_flies.txt
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MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>74</td><td align='center'>86</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>86</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>74</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>103</td><td align='center'>97</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>37</td><td align='center'>53</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>52</td><td align='center'>58</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Correct homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>98</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>102</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>99</td><td align='center'>101</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>201</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>199</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>208</td><td align='center'>192</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>296</td><td align='center'>304</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>306</td><td align='center'>163</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>131</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Correct heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>326</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>274</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>291</td><td align='center'>309</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>93</td><td align='center'>67</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>36</td><td align='center'>31</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>49</td><td align='center'>44</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Correct homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>73</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>87</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>103</td><td align='center'>97</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>85</td><td align='center'>47</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>68</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Correct heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>57</td><td align='center'>54</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>47</td><td align='center'>42</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Correct homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>97</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>103</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>99</td><td align='center'>101</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>234</td><td align='center'>166</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>93</td><td align='center'>109</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>94</td><td align='center'>104</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Correct homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>197</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>203</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>219</td><td align='center'>181</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>303</td><td align='center'>297</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>288</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>312</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>316</td><td align='center'>284</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>93</td><td align='center'>67</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>83</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>77</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>81</td><td align='center'>79</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>108</td><td align='center'>92</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>95</td><td align='center'>59</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>46</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Correct heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>103</td><td align='center'>97</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>191</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>209</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>214</td><td align='center'>186</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>296</td><td align='center'>304</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>288</td><td align='center'>143</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>169</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Correct heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>308</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>292</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>307</td><td align='center'>293</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>43</td><td align='center'>41</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>33</td><td align='center'>43</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Correct homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>82</td><td align='center'>78</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>91</td><td align='center'>109</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>46</td><td align='center'>49</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>52</td><td align='center'>53</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Correct homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>92</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>108</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>109</td><td align='center'>91</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>199</td><td align='center'>98</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>103</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Correct heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>196</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>204</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>207</td><td align='center'>193</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>297</td><td align='center'>303</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>0</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Correct heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>281</td><td align='center'>173</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>146</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Correct heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>307</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>0</td><td align='center'>293</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Correct homozygous mutant female (ww) and mutant male (w–) Incorrect
MC <p>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:</p><table cellpadding="2" cellspacing="2" style="border-collapse: collapse; text-align:center; border: 1px solid black; font-size: 14px;"><tr><th>phenotype</th><th>female ♀</th><th>male ♂</th></tr> <tr><td>red-eyed (wildtype)</td><td align='center'>0</td><td align='center'>0</td></tr> <tr><td>white-eyed (mutant)</td><td align='center'>304</td><td align='center'>296</td></tr> </table><br/><p><strong>What are the genotypes of the parents in this cross?</strong></p> homozygous wildtype female (++) and male of unknown genotype Incorrect heterozygous female (+w) and wildtype male (+–) Incorrect heterozygous female (+w) and mutant male (w–) Incorrect homozygous mutant female (ww) and wildtype male (+–) Incorrect homozygous mutant female (ww) and mutant male (w–) Correct