Chapter 10 Review

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Transcript Chapter 10 Review

Chapter 10 Review

1. Which represents a polyploid organism?

A.

B.

1/2n 1 1/2n C.

2n D.

3n

2. How many chromosomes would a cell have during metaphase 1 of meiosis if it has 12 chromosomes during interphase?

A.

B.

6 12 C.

24 D.

36

3. If a black guinea pig (Bb) were crossed with a white guinea pig (bb), what would be the resulting phenotypic ratio?

A.

B.

0 black :1 white 1black : 0 white C.

1 black : 1 white D.

3 black : 1 white

4. Which is not a characteristic of homologous chromosomes?

A.

B.

C.

D.

Homologous chromosomes have the same length.

Homologous chromosomes have the same centromere position.

Homologous chromosomes have the exact same type of allele at the same location.

Homologous chromosomes pair up during meiosis I.

5. In garden peas, purple flowers (P) are dominant to white flowers (p), and tall plants (T) are dominant to short plants (t). If a purple tall plant (PpTt) is crossed with a white short plant (pptt), what is the resulting phenotypic ratio?

A.

1:1:1:1 C. 9:3:3:1 B. 3 purple tall:3 purple short D. All purple tall

6. Which does not contribute to genetic variation?

A.

B.

Chromosome number Crossing over C.

Meiosis D.

Random mating

7. Which concept is considered an exception to Mendel’s law of independent assortment?

A.

B.

Crossing over Gene linkage C.

Polyploidy D.

Law of segregation

8. For the housefly with six pairs of chromosomes, how many possible combinations of gametes can be produced by the random linking up of pairs in meiosis?

A.

B.

32 48 C.

64 D.

120

9. In a cell undergoing meiosis, during which stage do the sister chromatids separate from each other?

A.

B.

Anaphase I Anaphase II C.

Telophase I D.

Telophase II

10. How many chromosomes does a body cell have?

A.

B.

2 23 C.

42 D.

46

11. What is the term for genes located close to each other on the same chromosome?

A.

B.

Crossing over Gene linkage C.

Homologous chromosomes D.

Sister chromatids

B= brown hair b= blond hair 12.

What is the genotype of a woman with homozygous brown hair?

A.

Bb B.

BB C.

Bb D.

None of the above

B= brown hair b= blond hair 13.

What is the phenotype of a woman that is bb?

A.

Brown hair B.

Homozygous recessive C.

Blond hair D.

Homozygous dominant

A.

14. What law states that alleles must separate upon being passed on?

Mendel’s monohybrid cross B.

Law of Independent Assortment C.

D.

Law of Segregation Mendel’s dihybrid cross

15. Passing on the dominant allele for hair color and the recessive allele for eye color is an example of the… A.

Mendel’s monohybrid cross B.

Law of Independent Assortment C.

D.

Law of Segregation Mendel’s dihybrid cross

16. What process does not increase genetic variation?

A.

B.

Meiosis Crossing over C.

Mitosis D.

Random fusion of sperm/egg

17. An organism that has a different form of a trait from each parent is called a A.

B.

Homozygote Purebred C.

Hybrid D.

fluke

18. If the diploid number of a fruitfly is 26, what is the haploid number?

A.

B.

26 0 C.

22 D.

13

For the remainder questions, list either A for Mitosis, or B for Meiosis: 19.

Crossing over occurs.

A.

B.

Mitosis Meiosis

20. 2 diploid cells are formed A.

B.

Mitosis Meiosis

21. Occurs in gametes A.

B.

Mitosis Meiosis

22. Associated with asexual reproduction.

A.

B.

Mitosis Meiosis

23. Associated with growth A.

B.

Mitosis Meiosis

24. Could occur in bone cells A.

B.

Mitosis Meiosis

25. Daughter cells are not identical to parent cells A.

B.

Mitosis Meiosis

26. 1 division occurs A.

B.

Mitosis Meiosis

27. Chromosome number is ½ the original A.

B.

Mitosis Meiosis

28. 4 daughter cells are formed A.

B.

Mitosis Meiosis

29. Involved in repair of cells A.

B.

Mitosis Meiosis

30. Involved in formed new and diverse organism A.

B.

Mitosis Meiosis

31. A white mouse whose parents are both white produces only brown offspring when mated with a brown mouse. The A.

white mouse is most probably Homozygous recessive B.

Heterozygous C.

Homozygous dominant D.

haploid

32. A dog’s phenotype can be determined by A.

B.

Looking at the dog’s parents Examining the dog’s chromosomes C.

Mating the dog and examining its offspring D.

Looking at the dog

33. Crossing over results in a A.

Female genotype B.

Male genotype C.

Genetic recombination D.

Phenotype replication