In a monohybrid cross F1 progeny resemble neither of the parents. What would be true in this case?
1. The parental traits would not appear in any of the F2 -progenies
2. The F2 phenotypic ratio will be different from the F2 genotypic ratio
3. It could be a case of incomplete dominance
4. The F2 phenotypic ratio will be similar to any Mendelian monohybrid cross
The two alleles of a gene pair are located on:
1. Homologous sites on homologous chromosomes
2. Heterologous sites on homologous chromosomes
3. Homologous sites on heterologous chromosomes
4. Heterologous sites on heretologous chromosomes
Male heterogamety is not seen in:
1. Humans
2. Melandrium album
3. Birds
4. Fruit fly
The trait shown in the given pedigree chart is most likely a/an:
1. Autosomal recessive trait
2. Autosomal dominant trait
3. Sex linked recessive trait
4. Sex linked dominant trait
Which of the following are correct regarding linked genes?
I. are located near each other on the same chromosome.
II. violate the law of independent assortment
III. segregate together during meiosis
(1) Only I and II
(2) Only I and III
(3) Only II and III
(4) I, II, III
Consider the cross AaBb x AaBb. If the alleles for both genes exhibit complete dominance, what genotypic ratio is expected in the resulting offspring?
1. 1:1:1:1
2. 9:3:3:1
3. 3:6:3:1:2:1
4. 1:2:1:2:4:2:1:2:1
Two phenotypically normal individuals have an affected child. What can we conclude about the parents?
1. they both carried the diesease allele
2. they are not the parents of the child
3. they are affected
4. no conclusions can be drawn
What is the basis of pleiotropy?
1. A spontaneous mutation during the replication of DNA.
2. Interrelationship between various metabolic pathways in the body.
3. Chromosomal aberration as chromosomes are the vehicles of genes.
4. the behaviour of chromosomes during meiosis or gamete formation.
A female whose father was colorblind marries and normal male whose father was also colorblind. What is the probablility that their daughter will be colorblind?
1. 0 %
2. 25 %
3. 50 %
4. 75 %
In humans, the dominance relationship between the A and B alleles of ABO blood group gene is an example of
(1) complete dominance.
(2) incomplete dominance.
(3) codominance.
(3) epistasis