Lecture 8: Molecular Diversity

Question 1

What are the 4 steps of nucleic acid extraction?

Answer 1

1. Cell lysis
   - Chemical or mechanical
2. Clean-up
   - Proteinase K, phenolchloroform, CsCl gradient
3. Get rid of contaminants and inhibitory substances
4. Alcohol precipitation and resuspension of DNA/RNA

Question 2

Explain how to do a PCR.

Answer 2

1. Denaturation
2. Annealing
3. Extension

Question 3

What are the caveats/limitations of using PCR amplicons to assay the environment?

Answer 3

1. Extraction biases
   - Incomplete lysis, degradation, etc.
2. PCR bias
   - Limitations to amplification
   - Primer bias (primers not universal)
3. PCR is not truly quantitative
4. One must return to the environment to check

Question 4

Which of the following are caveats/limitations of PCR-based molecular diversity approaches?

A. PCR is quantitative.
B. Not all cells are equally “extractable.”
C. Even “universal” PCR primers do not amplify all microorganisms 16S rRNA genes.
D. Both B & C
E. All the above

Answer 4

A. PCR is quantitative.
B. Not all cells are equally “extractable.”
C. Even “universal” PCR primers do not amplify all microorganisms 16S rRNA genes.
D. Both B & C
E. All the above

Question 5

What is the common type of vector used for DNA cloning?

Answer 5

Plasmid

Question 6

What are examples of mobile genetic elements in bacteria?

Answer 6

Question 7

Explain why a plasmid is a functional cloning vector.

Answer 7

• Can be replicated independent of the bacterial genome
• Functional markers added to vectors allow you to insert things into the DNA

Question 8

Why clone if you already have DNA?

Answer 8

• Improves the quality and length of the sequence read
• PCR introduces a lot of errors in the sequence –> cloning gives you cleaner identical copies of the DNA fragment of interest

Question 9

What are the steps of cloning a PCR product?

Answer 9

1. Separation mechanism for mixed environmental PCR products
2. Ligation of PCR product into plasmid vector
3. Transformation of competent E. coli cells
4. Screening by plating on selective medium

Question 10

What is the purpose of extracting DNA after you have cleaned and selected your colonies with your plasmid of interest?

Answer 10

To verify that it has the correct fragment of interest

Question 11

How do you do a DNA extraction?

Answer 11

1. Extract DNA from candidate clones
2. Purify the DNA
3. Analyze the DNA on an agarose gel

Question 12

What is the main purpose of cloning environmental 16S rRNA genes?

A. This aids in identifying E. coli species.
B. This separates out the individual 16S genes.
C. This allows us to see a diverse set of sequences in a single clone.
D. This allows us to test for antibiotic sensitivity of bacteria.
E. All the above.

Answer 12

A. This aids in identifying E. coli species.
B. This separates out the individual 16S genes.
C. This allows us to see a diverse set of sequences in a single clone.
D. This allows us to test for antibiotic sensitivity of bacteria.
E. All the above.

Question 13

Explain what happens in Sanger sequencing.

Answer 13

• Computer reads each band of the material through a capillary gel in order
• Uses fluorescence to identify the terminal dNTP (building blocks for your new DNA strand)
• Laser excites the fluorescent tag
• Computer detects what was added
• Incorporates the dNTPs by DNA polymerase in in vitro DNA replication
• As it adds those terminal ends, it can flesh out the full sequence of the gene of interest

Question 14

What are the pros and cons of Sanger sequencing?

Answer 14

A. Pros
- Low error rate
- Can read 800 bp at a time
B. Cons
- Time consuming
- Expensive
- Low throughput

Question 15

What does NCBI BLAST do?

Answer 15

• Generate alignments between your sequences
• Calculate statistical significance of those matches

Question 16

What are the phylogenetic methods of sequence analysis?

Answer 16

1. Parsimony
2. Distance (neighbor-joining)
3. Maximum likelihood

Question 17

What is the parsimony phylogenetic method?

Answer 17

Fewest evolutionary steps (base changes) to generate observed sequence differences

Question 18

What is the distance (neighbor-joining) phylogenetic method?

Answer 18

Fraction of sites that vary between sequences

Question 19

What is the maximum likelihood phylogenetic method?

Answer 19

Maximizes the probability of observing the sequence data

Question 20

What is bootstrapping?

Answer 20

Statistical procedure that resamples a single data set over and over again to create simulated samples

Question 21

What is the difference between genomics and metagenomics?

Answer 21

• Genomics: single organism
• Metagenomics: many organisms simultaneously

Question 22

What are some NextGen sequencing methods?

Answer 22

• Illumina: shorter reads
• PACBio: longer reads

Question 23

What is a gene probe?

Answer 23

Typically a fluorescent-labeled single stranded sequence of DNA or RNA that is used to search for its complementary sequence in a sample genome
- Often used to find functional genes of interest

Question 24

One way gene probes can be applied is in fluorescent in-situ hybridization (FISH). What is FISH?

Answer 24

Lab technique used to detect and locate a specific DNA sequence on a chromosome

Question 25

How is FISH done?

Answer 25

1. Cells are preserved whole
2. Cells are permeabilized with chemicals
3. Cells are hybridized with labeled probes that bind to the cell’s DNA or RNA
4. Upon excitation, the fluorescent probes emit light

Question 26

What is real-time/qPCR?

Answer 26

Technique that allows us to follow in real time the amplification of a target gene
- Can be done with DNA or RNA

Question 27

To do a qPCR with RNA, what must the RNA first be converted to? How is this done?

Answer 27

cDNA

Question 28

What are the caveats/limitations of qPCR?

Answer 28

• Still PCR based (see earlier issues)
• Control DNA/RNA reactions must be used
• 16S rRNA gene numbers do not equal cell numbers

Question 29

Imagine you are a scientist conducting research on microbial genetic material. Give an overview of the methods you would use/what you would do.

Answer 29

1. Nucleic acid extraction
2. Run a PCR
3. Clone the PCR product
4. Extract the DNA from that
5. Sequence the DNA (can do several things with the DNA sequence)
   - Run the sample through BLAST
   - Analyze the sequence (phylogeny)
   - Gene probes