1. Who are all phenotypically normal visioned and have normal pigmentation
2. Half of whom are colourblind and other half having normal vision and all of them having normal pigmentation
3. All of whom have normal vision,but half of whom are albino and the other half with normal pigmentation
4. Of four categories normal visioned pigmented;normal visioned albino;colourblind ,pigmented;colourblind,albino;all in equal proportions
Who are all phenotypically normal visioned and have normal pigmentation
1. Pseudolleles
2. The part of the same gene
3. Multiple alleles
4. Different genes
Pseudolleles
1. Flower colour is sex-linked
2. White flower colour is dominant
3. White flower colour is recessive
4. Flower colour is transmitted through cytoplasmic factors
Flower colour is transmitted through cytoplasmic factors
1. Diploidy
2. Outbreeding
3. Heterozygotic advantage
4. Recessive superiority
Heterozygotic advantage
1. X-chromosome from female will pass to female of next generation
2. X-chromosome from a male will pass to a female of next generation
3. X-chromosome from a male will pass to a male of next generation
4. None of the above
X-chromosome from a male will pass to a female of next generation
1. 14.5
2. 17.5
3. 16.7
4. 1.8
16.7
1. The ovaries fail to develop in females
2. The male hormone suppresses the activity of female hormones
3. The female is a weaker sex
4. None of the above
The male hormone suppresses the activity of female hormones
1. Epithelial cells
2. Neutrophils
3. RBCs
4. Basophils
Neutrophils
1. Caperson
2. Bertran
3. Lyon
4. Barr and bertran
Barr and bertran
1. All females red-eyed and males white-eyed
2. All males and female red-eyed
3. All females white-eyed and males red-eyed
4. All offsprings white-eyed
All females red-eyed and males white-eyed