Pearson Institute of Higher Education • BSc Biomedicine
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Introduction to Molecular Biology SCMO 13
Latest notes & summaries Pearson Institute of Higher Education • BSc Biomedicine
Describe the structure of DNA.
a. Describe the primary and secondary structure of DNA 
b. Discuss alternative double-helical structures 
c. Discuss denaturation, melting temperature and renaturation
d. Describe the tertiary structure of DNA by referring to supercoiling 
2. Explain the structure of a chromosome 
a. Explain the processes involved in the packaging of DNA 
b. Discuss the role of packaging in a cell 
3. Explain how nucleosomes affect nuclear processes to control gene expression
4. De...
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- • 20 pages's •
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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Fundamental Molecular Biology • Lizabeth Allison• ISBN 9781118059814
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Describe the structure of DNA.
a. Describe the primary and secondary structure of DNA 
b. Discuss alternative double-helical structures 
c. Discuss denaturation, melting temperature and renaturation
d. Describe the tertiary structure of DNA by referring to supercoiling 
2. Explain the structure of a chromosome 
a. Explain the processes involved in the packaging of DNA 
b. Discuss the role of packaging in a cell 
3. Explain how nucleosomes affect nuclear processes to control gene expression
4. De...
Discuss the sources of DNA for cloning 
2. Explain the theoretical principles of PCR and the use of this technique in recombinant
genetic technology & biotechnology
a. Explain what PCR is 
b. Explain the role of primers, dNTPs, Taq polymerase and buffer in the reaction
c. Describe the three steps of PCR
d. Draw the first 3 cycles of PCR
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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Fundamental Molecular Biology • Lizabeth Allison• ISBN 9781118059814
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Discuss the sources of DNA for cloning 
2. Explain the theoretical principles of PCR and the use of this technique in recombinant
genetic technology & biotechnology
a. Explain what PCR is 
b. Explain the role of primers, dNTPs, Taq polymerase and buffer in the reaction
c. Describe the three steps of PCR
d. Draw the first 3 cycles of PCR
a. Define gene regulation and gene expression
b. Explain what an operon is
c. Explain what regulatory proteins are 
d. Explain how these regulatory proteins work
e. Describe what constitutive expression is
f. Define what an allosteric effector is 
g. Describe all the genes, activators, repressors and inducers that participate in
regulating the expression of the lac operon 
2. Explain by also using diagrams the effect of low levels of glucose or low levels of lactose
or both of them together on t...
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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a. Define gene regulation and gene expression
b. Explain what an operon is
c. Explain what regulatory proteins are 
d. Explain how these regulatory proteins work
e. Describe what constitutive expression is
f. Define what an allosteric effector is 
g. Describe all the genes, activators, repressors and inducers that participate in
regulating the expression of the lac operon 
2. Explain by also using diagrams the effect of low levels of glucose or low levels of lactose
or both of them together on t...
a. Explain the role of DNA packaging in gene expression regulation
b. Explain by means of an example how DNA packaging can regulated gene expression 
c. Describe the role of transcription factors, enhancers, silencers and promoters in
transcriptional regulation 
d. Explain how DNA-binding proteins can interact at a distance 
e. Explain why not all gene regulation targets transcription initiation 
f. Explain how alternative splicing give rise to different mRNA thus assisting with gene
regulation ...
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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Fundamental Molecular Biology • Lizabeth Allison• ISBN 9781118059814
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a. Explain the role of DNA packaging in gene expression regulation
b. Explain by means of an example how DNA packaging can regulated gene expression 
c. Describe the role of transcription factors, enhancers, silencers and promoters in
transcriptional regulation 
d. Explain how DNA-binding proteins can interact at a distance 
e. Explain why not all gene regulation targets transcription initiation 
f. Explain how alternative splicing give rise to different mRNA thus assisting with gene
regulation ...
a. Explain why plasmids are necessary to produce recombinant DNA 
b. Explain the difference between chromosomal DNA and plasmid DNA within E.Coli.
c. Describe the three different conformations in which plasmid DNA is found
d. Describe how these different conformations will separate on an agarose gel during
electrophoreses
e. Explain how plasmid DNA is purified from E.coli cells by using the alkaline lysis
approach. In your answer refer to the function of each reagent 
f. Explain why the above-me...
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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Fundamental Molecular Biology • Lizabeth Allison• ISBN 9781118059814
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a. Explain why plasmids are necessary to produce recombinant DNA 
b. Explain the difference between chromosomal DNA and plasmid DNA within E.Coli.
c. Describe the three different conformations in which plasmid DNA is found
d. Describe how these different conformations will separate on an agarose gel during
electrophoreses
e. Explain how plasmid DNA is purified from E.coli cells by using the alkaline lysis
approach. In your answer refer to the function of each reagent 
f. Explain why the above-me...
a. Define electrophoresis 
b. Explain which molecules can be analysed using electrophoresis 
c. Explain how an electrical current can separate DNA fragments based on their size
d. Explain why smaller fragments move faster through the gel then bigger fragments
e. Determine the size of unknown DNA fragments by using a DNA ladder 
f. Construct a restriction map based on sizes of fragments 
g. Explain the role of positive and negative controls in an experiment 
h. Explain the function of a loading d...
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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Fundamental Molecular Biology • Lizabeth Allison• ISBN 9781118059814
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a. Define electrophoresis 
b. Explain which molecules can be analysed using electrophoresis 
c. Explain how an electrical current can separate DNA fragments based on their size
d. Explain why smaller fragments move faster through the gel then bigger fragments
e. Determine the size of unknown DNA fragments by using a DNA ladder 
f. Construct a restriction map based on sizes of fragments 
g. Explain the role of positive and negative controls in an experiment 
h. Explain the function of a loading d...
a. Describe what DNA sequencing is 
b. Explain the Sanger sequencing method 
i. In your answer refer to the primer, type of nucleotides and polymerase
c. Read a DNA sequence from an autoradiograph
d. Explain how DNA sequencing can be automated by replacing radioactive labels
with fluorescent labels 
e. Explain the use of next-generation sequencing 
f. Explain the principle of “sequence-by-synthesis”
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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Fundamental Molecular Biology • Lizabeth Allison• ISBN 9781118059814
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a. Describe what DNA sequencing is 
b. Explain the Sanger sequencing method 
i. In your answer refer to the primer, type of nucleotides and polymerase
c. Read a DNA sequence from an autoradiograph
d. Explain how DNA sequencing can be automated by replacing radioactive labels
with fluorescent labels 
e. Explain the use of next-generation sequencing 
f. Explain the principle of “sequence-by-synthesis”
a. Compare and contrast three distinct methods for genetic manipulation of organisms
b. Discuss step by step how to make a transgenic mouse 
c. Explain how transgene expression can be analysed 
d. What is meant by “inducible transgenic mice”? 
e. What is “knockout mouse” 
f. Discuss the role of model organisms in Molecular biology studies 
i. Consider the characteristics of a model organism as well.
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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Fundamental Molecular Biology • Lizabeth Allison• ISBN 9781118059814
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a. Compare and contrast three distinct methods for genetic manipulation of organisms
b. Discuss step by step how to make a transgenic mouse 
c. Explain how transgene expression can be analysed 
d. What is meant by “inducible transgenic mice”? 
e. What is “knockout mouse” 
f. Discuss the role of model organisms in Molecular biology studies 
i. Consider the characteristics of a model organism as well.
a. Explain why due to totipotency it is much easier to produce transgenic plants than
transgenic animals
b. Discuss the process of tissue culture
c. List and discuss the major strategies for gene transfer to plant cells
i. Explain agrobacterium transformation in detail by referring to the Ti plasmid,
T- DNA, border sequences, vir genes, oncogenes 
ii. Discuss the experimental protocol for transferring genes via agrobacterium
in dicots 
2. Discuss electroporation and microballistics (gene gun) as...
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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Fundamental Molecular Biology • Lizabeth Allison• ISBN 9781118059814
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a. Explain why due to totipotency it is much easier to produce transgenic plants than
transgenic animals
b. Discuss the process of tissue culture
c. List and discuss the major strategies for gene transfer to plant cells
i. Explain agrobacterium transformation in detail by referring to the Ti plasmid,
T- DNA, border sequences, vir genes, oncogenes 
ii. Discuss the experimental protocol for transferring genes via agrobacterium
in dicots 
2. Discuss electroporation and microballistics (gene gun) as...
a. Define proteome and proteomics
b. Discuss the importance of proteomics 
c. List the difficulties in protein expression analysis
d. Discuss reporter genes and fusion proteins by providing examples 
e. Discuss protein gel electrophoresis
f. Compare and discuss the three methods for analysing gene expression at the level of
translation 
g. Discuss the yeast two-hybrid system as well as GST Pull-down assay as techniques
used to screen protein-protein interaction 
h. Discuss x-ray crystallography ...
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Pearson Institute of Higher Education•Introduction to Molecular Biology
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a. Define proteome and proteomics
b. Discuss the importance of proteomics 
c. List the difficulties in protein expression analysis
d. Discuss reporter genes and fusion proteins by providing examples 
e. Discuss protein gel electrophoresis
f. Compare and discuss the three methods for analysing gene expression at the level of
translation 
g. Discuss the yeast two-hybrid system as well as GST Pull-down assay as techniques
used to screen protein-protein interaction 
h. Discuss x-ray crystallography ...