Name: ______

SBI4U Unit Test: Molecular Genetics

Multiple Choice (K/17)

___ 1.Which of the following terms does not describe DNA replication?

a. uni-lateral / c. bi-directional
b. semi-discontinuous / d. semi-conservative

___ 2. The central dogma of molecular biology states that the information in DNA is copied to ______by the process of ______, and then to ______via______.

a. protein, transcription, RNA, translation
b. RNA, transcription, protein, translation
c. RNA, translation, protein, transcription
d. protein, translation, RNA, transcription

___ 3. Pairs of homologous chromosomes line up along the equator of the cell in:

a. Prophase I / c. Metaphase I
b. Prophase II / d. Metaphase II

___ 4. The universal start codon also encodes:

a. does not code an A.A. / c. threonine
b. leucine / d. methionine

___ 5.Two alleles for fur colour exist in a population of mice: B (dominant brown) and b (recessive white). If the allele frequency of b is 0.34, what proportion of the mouse population will be heterozygous (Bb)?

a. 0.12 / c.0.45
b. 0.34 / d. 0.66

___ 6.A base-pair substitution can be classified as all of the following, except:

a. nonsense mutation / c. silent mutation
b. frameshift mutation / d. missense mutation

___ 7.Which of the following genes is not under the control of the lac operator?

a. LacI / c. LacZ
b. Lac X / d. LacY

___ 8.Chinchillas have 32 pairs of chromosomes. After a round of mitotic division, how many chromosomes will each daughter cell contain?

a. 16 / c. 64
b. 32 / d. 128

___ 9. Gel electrophoresis is a method for separating DNA fragments according to their size. When electrophoresed, DNA fragments will migrate at a rate that is:

a. proportional to their size
b. proportional to the logarithm of their size
c. inversely proportional to their size
d. inversely proportional to the logarithm of their size

___ 10.Which of the following is true about the bonding in a DNA molecule?

a. The sugar-phosphate backbone is joined by hydrogen bonds
b. The sugar-phosphate backbone is joined by phosphodiester bonds
c. The nitrogenous bases are joined by phosphodiester bonds
d. The nitrogen bases are joined by glycosyl bonds

___ 11. The synthesis of Okazaki fragments occurs because:

a. DNA strands run antiparallel, and synthesis can only occur in the 3’ à 5’ direction.
b. DNA strands run antiparallel, and synthesis can only occur in the 5’ à 3’ direction.
c. RNA primase as a high affinity for the lagging strand, and primes it often
d. There is only enough free energy to synthesize one strand continuously

___ 12.Which of the following post-transcriptional modifications is carried out in a prokaryotic cell?

a. 5’ cap of 7-methyl guanosine and 3’ poly-A tail are added
b. introns are spliced out, and exons are ligated
c. both a and b
d. neither a nor b

___ 13. In eukaryotes, what part of the mRNA transcript is recognized by the ribosome so it knows to assemble?

a. Shine-Dalgarno sequence / c. the 3’ poly-A tail
b. the promoter / d. the 5’ cap

___ 14. During protein synthesis, the ribosome moves along the mRNA in groups of ______bases, called ______. A tRNA with a complementary ______delivers the amino acid.

a. three; codons; anticodon
b. three; anticodons; codon
c. four; codons; anticodon
d. four; anticodons; codon

___ 15.A particular operon is controlled by a repressor. It is not transcribed in the presence of protein X. When concentrations of protein X decline, transcription of the operon occurs. Which statement describes the situation best?

a. this is positive regulation, and protein X is the effector
b. this is positive regulation, and protein X is the regulator
c. this is negative regulation, and protein X is the effector
d. this is negative regulation, and protein X is the promoter

___ 16. SalI is a restriction enzyme that recognizes the following sequence, and cuts between the G and the T:

5’-GTCGAC-3’

3’-CAGCTG-5’

What type of ends are formed by cleavage with SalI?

a. split end / c. 3’ overhang sticky end
b. 5’ overhang sticky end / d. blunt end

___ 17. Which of the following is not an application of RFLP?

a. genetic screening / c. forensic identification
b. bacterial transformation / d. paternity testing

Short answer

18. Look at the following picture of an agarose gel following electrophoresis of the four samples in a Sanger sequencing reaction. (T/2)

a. What is the sequence of DNA? 5’-GTACATTAAA-3’

b. Label the end with positive electrode (+), and the negative electrode (-).

(-)

(+)

19. DNA replication has proofreading mechanisms whereas transcription does not. Describe two reasons why a cell can more easily tolerate an error in transcription. (C/2)

Description of any two of the following:

·  Error is not inherited

·  Normal proteins should outnumber defective proteins

·  Redundancy of the genetic code

·  Wobble base pairing

20 a. Compare the processes of DNA replication, Polymerase Chain Reaction, and transcription: (K/3)

____ separates the DNA strands / Type of primer / Enzyme that synthesizes the new strand
Replication / helicase / RNA / DNA Pol III
PCR / Heat / DNA / DNA Pol
(Taq polymerase)
Transcription / RNA polymerase / None / RNA polymerase

b. PCR does not require single stranded binding proteins, or a DNA gyrase. What purpose does each of these molecules serve in DNA replication, and why are they not required in PCR? (C/3)

·  SSB – keeps strands from re-annealing

·  DNA gyrase – relieves torsional strain caused of strands unwinding

·  Not required bc heat completely denatures the strands from each other

21. This picture depicts transcription and translation in a cell. Is this cell prokaryotic, or eukaryotic? How do you know? (A/2)

·  Prokaryotic

·  coupled transcription-translation

22.An individual is homozygous at two loci: A/a·B/b.

a. Write out the four possible combinations of alleles (T/1)

AB, ab Ab, aB

b. What proportion of each gamete can be expected if loci A and B are unlinked? (T/1)

25% of each

Suppose the individual described above received the following combinations of alleles from its parents: A·B from its mother, a·b from its father.

c. Rewrite the allele combinations from (a). What proportion of each gamete can be expected if loci A and B experience a recombination frequency of 0.2? (T/1)

AB – 40%

ab – 40%

Ab – 10%

aB – 10%

23 a. List the four levels at which gene regulation can act (K/2)

Transcriptional, post-transcriptional, translational, post-translational

b. In gene therapy, antisense oligonucleotides act by bonding to targeted mRNA’s in order to prevent their products from being made. At what level is this form of gene regulation acting? (A/1)

Translational

24. Describe either the experiment of either Meselson and Stahl, or Beadle and Tatum: What did they do, what did they see, and what did they conclude? (C/3)

Check notes – One mark for each point


25. Considering the following DNA sequence:

3’ – CCGTACCCTGTATAAAAC – 5’

a. Write the complementary DNA strand that would be produced in replication (A/1):

3’ – CCGTACCCTGTATAAAAC – 5’

5’ – GGCATGGGACATATTTTG – 3`

b. Write the complementary mRNA strand that would be produced in transcription (A/1):

3’ – CCGTACCCTGTATAAAAC – 5’

5’ – GGCAUGGGACAUAUUUUG – 3`

c. What is the sequence of amino acids that would result from translation of the mRNA sequence? (A/1)

GLY – MET – GLY – HIS – ILE - LEU

The Genetic Code (the pocket version):

Codon / Amino acid / Codon / Amino acid
AAC / Asn / GAC / Asp
AUG / Met / GGA / Gly
AUU / Ile / GGC / Gly
CCG / Pro / UAA / Stop
CAU / His / UCA / Ser
CUU / Leu / UUG / Leu

Bonus: (K/1)

What was the name of the scientist who actually performed the experiment that produced the X-ray crystallography image of DNA?

rosalind franklin


26. Consider the following mRNA sequence, and the polypeptide produced as a result:

mRNA: / 5’ - AUG / AAC / CCC / ACA / UAA - 3’
polypeptide: / Met / Asn / Pro / Thr / stop

A mutation occurs so that the following mRNA is transcribed:

mRNA: / 5’ – AUG / UAA / CCC / CAC / AUA- 3’
polypeptide: / Met / STOP

a. Is this a base pair substitution, insertion, or deletion? (T/1) insertion

b. Use the genetic code from #25 to translate the polypeptide sequence, and write it in above (T/1)

c. Is this a nonsense, missense, or a silent mutation? (T/1) nonsense

27. A DNA fragment that is 1000 bp long is analyzed. Its composition is found to be 32% thymine. How many guanines bases are in the fragment? (T/2)

Guanine – 18%

18% x 1000 = 180

*Note should be 18% x 2000 = 360 since each base pair contains 2 bases, but I forgot to point this out when taking up the sheet. I accept either answer.

Matching (A/8)

For each of the following items, indicate in which process they are found. Do this by writing in the letters corresponding to the process next to the component.

Processes: A. DNA replication C. Translation

B. Transcription D. PCR

_D__ 28. DNA primers
_C__ 29. small and large ribosomal subunits
_B__ 30. RNA polymerase
_C__ 31. transfer RNA / _D__ 32. heat denaturation
_A__ 33. DNA gyrase
_D__ 34. Taq polymerase
___ 35. RNA polymerase

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