Imprimer Test: 9.3 Monohybrid crossing ()

1.

Gene A (yellow) is dominant over gene a (green).The crossing of AA and aa will give:

A.

50 % yellows and 50 % greens

B.

100 % of yellow

C.

25 % yellow, 50 % greenish yellow and 25 % greens

D.

100 % Greens

2.

Gene A (yellow) is dominant over gene a (green). The crossing of 2 heterozygous Aa will give:

A.

50 % yellows and 50 % greens

B.

25 % Yellow, 50 % Greenish yellow and 25 % greens

C.

75 % Yellows and 25 % Greens

D.

100 % Greens

3.

Partial dominance for antennae in insects: A Long, AB Medium, and B Short. Crossing of AA x BB

A.

100 % Long

B.

50 % Long and 50 % Short

C.

25 % Long, 50 % Medium, 25 % Short

D.

100 % Medium

4.

Partial dominance for antennae in insects :A Long, AB Medium, and B Short. Crossing of AB x AB

A.

25 % Long, 50 % Medium, 25 % Short

B.

50 % Long and 50 % Short

C.

100 % Medium

D.

100 % Long

5.

The color of the carnation flowers shows a partial or incomplete dominance. The R allele codes for red, the B allele for white and the heterozygote RB turns pink. At the crossing of two RB heterozygotes one might expect the color of their offspring to be:

A.

50 % Red, 50 % White

B.

25 % red, 50 % pink and 25 % white

C.

100 % Pink

D.

33 % Red, 33 % White and 33 % Pink

6.

The color of the carnation flowers shows a partial or incomplete dominance. The R allele codes for red, the B allele for white and the heterozygote RB turns pink. At the intersection of two homozygous BBs and a heterozygous BR, how would you expect the color of the offspring to be?

A.

25 % White, 50 % Pink and 25 % Red

B.

50 % White and 50 % Red

C.

50 % White and 50 % Pink

D.

33 % White, 33 % Red and 33 % Pink

7.

Some specimens of the Bobtail breed do not have a tail. Two dogs without a tail are crossed and the resulting offspring are: 75% puppies without a tail and 25% puppies with a tail. It can be concluded that the allele coding for "NO TAIL" is:

A.

Imposible to know

B.

Recessive

C.

Codominant

D.

Dominant

8.

Daltonism (which is a condition that does not allow to distinguish some colors) is due to a recessive gene linked to the X chromosome. This recessive gene for color blindness is represented by dX and the chromosome of an un-impaired vision by X. What would be the possible phenotype of children resulting from the marriage between a carrier woman and a visually un-impaired man?

A.

25 % carrier woman, 25 % daltonic woman, 25% normal man and 25 % carrier man.

B.

50 % carrier woman y 50 % normal man

C.

25 % normal woman, 25% carrier woman, 25 % normal man and 25 % daltonic man

D.

50 % normal woman and 50 % daltonic man

9.

Daltonism (which is a condition that does not allow to distinguish some colors) is due to a recessive gene linked to the X chromosome. This recessive gene for color blindness is represented by dX and the chromosome of an un-impaired vision by X. What would be the possible phenotype of children resulting from the marriage between a carrier woman and a Daltonic man?

A.

25 % carrier woman, 25 % daltonic woman y 50 % daltonic man

B.

25 % normal woman, 25 % carrier woman, 25 % normal man and 25 % daltonic man

C.

25 % carrier woman, 25 % daltonic woman, 25 % normal man and 25 % daltonic man

D.

50 % daltonic woman and 50 % daltonic man

10.

DNA segment that contains the information for a specific trait.

A.

Genotype

B.

Genome

C.

Chromosome

D.

Gen

11.

It is the name given to the variant forms of a gene

A.

Alleles

B.

Genes

C.

Chromosomes

D.

Genotypes

12.

This cell contains the total chromosomes of a species. It is represented as 2n.

A.

Gamete

B.

Haploid

C.

Diploid

D.

Complete

13.

This cell contains only half of a species' chromosomes. It is represented as n

A.

Incomplete

B.

somatic cell

C.

Diploid

D.

Haploid

14.

When an organism has two identical alleles for the same gene, it is said to be:

A.

Gay

B.

Zygote

C.

Homozygous

D.

Heterozygous

15.

Which one of these represents a heterozygous genotype?

A.

B.

C.

D.