Problem Set 8 Answer Key - Open Computing Facility
嚜燐CB 102
University of California, Berkeley
Isabelle Philipp
August 11, 2009
Online Document
Problem Set 8
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Answer Key
1. The Genetic Code
(a) Are all amino acids encoded by the same number of codons?
no
(b) Which amino acid(s) are encoded by the most codons?
Leu, Ser and Arg are each encoded by 6 codons
(c) Which are encoded by only one codon?
Met and Trp
(d) Which are encoded by only one codon?
UAA, UAG, UGA
(e) What are the tRNA anti每codons that can bind to the tyrosine codons? Note the
5* and 3* ends.
If mRNA is 5* UAU 3*, then anticodon will be 3* AUA 5*
If mRNA or 5* UAC3*, then anticodon will be 3*AUG 5*
(f) What is special about the amino acid methionine?
Methionine is the first amino acid on the polypeptide chain. Its codon, AUG,
serves as the start codon.
2. Regulation of Gene Expression
Mutations can alter the function of an operon. Predict how the following mutations
would affect the Lac Operon gene transcription (i) in the presence of lactose and (ii)
in the absence of lactose?
(a) Mutation of the Operator so that the repressor can no longer bind to it.
(i) Lactose ↙ Operon On
(ii) No Lactose ↙ Operon On (no represser bound to operator)
(b) Mutation of the Promoter so that it is no longer seen by RNA polymerase.
(i) Lactose ↙ Operon Off (no polymerase bound to transcribe genes)
(ii) No Lactose ↙ Operon Off
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Answer Key
(c) Mutation of the Promoter for the lacI repressor so that it is no longer bound by
RNA polymerase.
(i) Lactose ↙ Operon On
(ii) No Lactose ↙ Operon On (no repressor made)
3. Gene expression
You want to express a human keratin protein, so you need to integrate the human
gene into a bacterial plasmid. If you cut out the human keratin gene directly from the
human DNA genome and insert it into the plasmid, will the bacteria be able to express
this gene for you? If not, why not? What additional steps would you need to do to
get the bacteria to express your gene?
No, the bacteria will not be able to express this gene because there are intron pieces
inside the human genomic DNA for the gene. However, bacterial genomes do not
contain introns and therefore do not have the machinery to splice introns. You will
need to screen a cDNA library, or make a cDNA from the keratin mRNA using reverse
transcriptase, to insert the keratin cDNA in the bacterial expression plasmid.
4. The Genetic Code II
In studies of the evolution of amino acid sequences in Drosophila, the following changes
have been observed.
Using the genetic code in your text, determine a set of triplet codes in which only a
single nucleotide change produces each amino acid change. (Each arrow indicates one
amino acid change caused by a single nucleotide change from the previous codon).
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Answer Key
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5. Gene Analysis
Below is a picture of human genomic DNA that contains a gene found to be abnormally
regulated in skin cancer cells. There is a ruler below the genomic DNA that indicates
every 100 base-pairs (the entire region shown is 1800 bp long). You want to study the
gene further to learn about its function, and whether mutations in the gene are found
in skin cancer patients. You identified four sequences that can be cut by the Restriction
enzymes HindIII, AvaII and SmaI, as marked above. (Thursday and Tuesday)
(a) If you cut with SmaI, how many fragments do you expect to get?
two fragments.
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Answer Key
(b) You separate the fragments based on size using gel electrophoresis. Draw a
picture of the gel with what your fragments would look like on the gel. Label
the approximate sizes of the fragments. Add in the + and 每 poles of the gel.
(c) If you cut with HindIII, how many fragments will you get?
three fragments.
(d) If you cut with HindIII and SmaI how many fragments will you get?
four fragments
(e) Lets say you wanted to amplify the promoter region using PCR to identify transcription factor binding sites. Draw on the picture above to show where you would
have your PCR primers placed to specifically amplify this region. Use arrows (↙)
to represent your primers and their required 5* ↙ 3* orientation in the picture
above.
(f) Why is denaturation the first step during PCR?
Primers can only anneal to a single strand DNA, which then can act as a template
for DNA polymerases. For each round of replication the mixture needs to be
heated above 90o C again to denature the newly formed DNA, §melt§ the hydrogen
bonds, and separate the double helix.
6. Trp operon
What would be the effect of a deletion of region 4 of trpL on regulation of transcription.
Region 4 is involved in formation of the terminator sequence involved in attenuation
of the trp operon. So, attenuation would not occur, giving higher levels of complete
trp operon mRNA.
7. PCR
Why is a heat-stable DNA polymerase used for the polymerase chain reaction (PCR)?
Before the discovery of a heat-stable DNA polymerase, during each denaturation step
of the PCR, the DNA Polymerase (Klenow fragment of E. coli DNA Polimerase I)
was inactivated and needed to be added again before each new cycle. The use of a
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Answer Key
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thermostable DNA polymerase eliminates the need for having to add new enzyme to
the PCR reaction during the thermocycling process.
Exam Questions from 2008
8. Operon
You are an undergrad research assistant in a UC Berkeley lab and are working in bacteria on the metabolism of the monosaccharide, theose. Metabolism of theose requires
the enzymes X, Y, and Z. The genes encoding these enzymes are part of one operon,
and the product of gene N (N protein) regulates the transcription of these three genes.
In a normal cell, protein A is always produced. A diagram of this operon is shown
below.
(a) Give a brief definition of an operon.
An operon is two or more genes that are regulated by the same control region(s).
(b) In a cell where there is a high level of N protein, you detect no transcription of
genes X, Y, and Z.
You conclude that....
The N protein is (circle one)
a repressor.
(c) In further study, you discover that
transcription of the N gene is controlled by protein A (protein A is the product
of gene A shown in the diagram), and
theose binds to the N protein.
You examine the transcription of genes N, X, Y, and Z in cells where gene A is
normal (A+) and where gene A is not functional (A-) and in the presence (+)
and absence (-) of theose. The data was shown in a table.
i. Given the results above, what does protein A do?
Protein A promotes the transcription of gene N.
ii. Given the results above, what does theose do?
Theose binds to protein N and prevents it from binding to the O region. This
prevents repression by N.
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