Molecular Techniques DLA

Question 1

What is a restriction endonuclease?

Answer 1

Cut DNA within a segment of DNA were discovered in bacteria

Question 2

What were class 1 restriction endonuclease?

Answer 2

Recognize specific sequence but cleavage site is non-specific thus not useful for gene manipulation

Question 3

What are class 2 restriction endonuclease?

Answer 3

• Cut DNA in a precise and reproduction fashion
• Cuts dsDNA within a symmetrical recognition site (normally)
• Hydrolyze phosphate backbone to give a 5’-phosohate and 3’-OH
• Blunt or sticky overhangs a few bp in length
• Enzymes are homodimers that recognize short, symmetric DNA sequences

Question 4

What are class 3 restriction endonuclease?

Answer 4

Recognition site is nit symmetrical, not useful for gene manipulation

Question 5

What are exonucleases?

Answer 5

Cut DNA one base pair at a time from the extreme 5’ to 3’ end of a piece of DNA

Question 6

What are palindromic regions?

Answer 6

When read in 5’ to 3’ direction, the sequence on the “top” strand is identical to that if the “bottom “ strand

Question 7

Summarize the function of DNA ligase

Answer 7

• DNA joining enzyme called ligase
• Catalyzes the formation of phosphodiester bond
• 5’ phosphate of one nucleotide to the 3’ hydroxyl of the next nucleotide

Question 8

What is the purpose of DNA ligase?

Answer 8

Restriction enzyme recognizes specific sequence of DNA

• Cleaves phosphodiester bonds of the top strand and bottom strand leaving 5’ overhanging free nucleotides
• These nucleotide overhangs nicknamed “sticky ends” (also called cohesive ends) can re-establish H-bonds
• DNA ligase re-forms the phosphodiester bonds (on both sticky ends and blunt ends)

Question 9

What are the 4 general types of DNA polymerase used in labs?

Answer 9

1. DNA polymerase 1(from E. Coli or T4 phage)
   - 5’ to 3’ polymerase, exonuclease activity in both directions

-Used in Nick translation, probe prep, DNA repair & making a blunt end from sticky

2. Klenow fragment DNA polymerase
   - 5’ to 3’ polymerase & 3’ to 5’ exonuclease
   - uses single stranded template
   - Used in Sanger sequencing & synthesis of second strand of cDNA(cloning)
3. Reverse transcriptase (RNA Dependent DNA polymerase)
   - 5’ to 3’ polymerase & 3’ to 5’ exonuclease.
   - Needs RNA as template
4. Taq polymerase
   5’ to 3’ polymerase activity only

• Isolated from thermos table bacteria found in hot spring
• Used in PCR (requires primers)
• New versions contain proofreading capabilities

Question 10

Explain what is cloning

Answer 10

The introduction of a foreign DNA molecule into a replicating cell, permitting the cloning or “amplification” of that DNA

-Most commonly, to clone a specific nucleotide sequence of interest

• The reaction involves cutting a fragment of DNA and lighting it into a DNA cloning vector creating a RECOMBINANT DNA MOLECULE, then inserting it into a host cell
  
  • A cloning vector is a stable molecule of DNA which can incorporate a foreign fragment of DNA which can be stably taken up by a host cell and then replicate within the host cell

Experimental conditions favor only one piece of DNA inserted into each vector and only one recombinant molecule per host cell

Fundamental technique in recombinant DNA work

Question 11

Why are naturally occurring bacterial plasmids become cloning vectors?

Answer 11

• Most commonly used vectors are prokaryotic plasmids
• Can insert up to 10kb of foreign DNA
• Replicate inside the cell so that daughter cells have the plasmid as well

Question 12

What are the 3 important factors for cloning vectors?

Answer 12

1. They must be able to self-replicate in a host cell with an origin of replication (both before and after insertion of foreign DNA)
2. Must have a region called a Multiple Cloning Site (MCS)
   - A number of unique restriction sites, all within the same region of a vector and these restriction sites must be unique and not present anywhere else in the vector
3. Must contain a selectable marker
   - Typically a gene which confers antibiotic resistance to the host cell

-Sometimes it’s a gene for an enzyme that is nit found in the host cell

Question 13

What are the functions cations cloning vectors are designed for?

Answer 13

1. Replication: to replicate & increase the amount of DNA that you have (high copy number)
2. Sequencing- contains universal sequences to use for sequencing primer
3. Protein expression-
   - Multiple cloning site is found dowtnstream of bacterial gene with ribosome binding site

• Genetic information cloned into this vector is translated into protein by the host cell
• Promoter sequence is found in the vector to use host cell machinery to initiate transcription
• Specific called cDNA and will be discussed

Question 14

Summarize how cloning is done

Answer 14

• DNA fragments to be cloned are created by digesting DNA with restriction endonucleases
• A vector, which replicates autonomously, is selected to act as a vehicle to transfer the fragment into a host cell
• The fragments are then ligated into the vector
• The vector/fragment hybrid, called a recombinant DNA molecule, is introduced into a host cell
• Recombinant DNA will replicate making many copies if itself AKA —> clones
• When host cell replicates, the daughter cells also contain the recombinant DNA, forming a colony of identical cells
• Recombinant DNA may be recovered from this culture of cells- this DNA may be used for many purposes

Question 15

Summarize the history of PCR

Answer 15

• In vitro method invented in 1983 by scientist Kary Mullis for rapid production of large amounts of specific DNA sequences
• In 1986adapted by forensic scientist Edward Blake and the FBI to perform forensic testing as only a small amount of template DNA is required as starting material
• Proces is automated and each round of replication doubles the total amount of DNA and takes minutes
• 30 rounds (cycles) May result in millions, billions, trillions of copies of a specific sequence

Question 16

What are the requirements of PCR(components)?

Answer 16

1. DNA polymerase: an enzyme which synthesizes new strand of DNA complementary to an existing single strand of DNA or RNA template n the 5’ to 3’ direction but requires a short, double stranded region with a free 3’ OH end for the enzyme to add the new nucleotide
2. Primers: 2 short, synthetic oligonucleotide designed to bind the top and bottom strand of the target DNA template, typically about 20 bp which primes DNA synthesis, in excess so they will preferentially bind to the denatured DNA template
3. Deoxynucleotide triphosphate
4. magnesium chloride
5. Buffer
6. DNA

Question 17

What are the steps of PCR?

Answer 17

1. 95 degrees Celsius- denature DNA into separate strands
2. 45-65 degrees Celsius- anneal primers to flanking regions of single-stranded DNA
3. 72 degrees Celsius- extend primers with DNA polymerase
4. The two new double stranded DNA molecules can be denatured and copied using steps 1 to 3

Question 18

How much PCR to yield millions of copies of DNA in PCR?

Answer 18

Each cycle double the DNA

Up to thirty cycles are run to yield millions of copies of you DNA of interest

Question 19

Can you clone or amplify the mRNA that is depressed in a cell like you do DNA?

Answer 19

• Yes but first you must convert the genetic information from the single stranded RNA to double stranded DNA
• The converted material is called cDNA for “complimentary DNA” or “ coding DNA” as I contains only the gene informantion that s translated into protein and none of the introns, upstream and downstream information
• Then you can clone or amplify the genetic information

Recall hat the DNA is the same in all your cells, mRNA is expressed differently in different cell types and varies under different conditions

Question 20

How can a genome be amplified by the cDNA?

Answer 20

• Making cDNA from mRNA
• Isolate mRNA from cells by taking advantage of the Poly A tail
• Add oligo-dT primer
• Add dNTPs & reverse transcriptase

-Destroy mRNA (many techniques)
Er
-Generate 2nd strand DNA with DNA polymerasewhich removes RNA and places it with DNA

• DNA ligase repairs backbone (phosphodiester bond formation)
• Now use dsDNA for template in your PCR reaction
• PCR reaction including appropriate primers and Taq polymerase and other components

Question 21

How are primers designed?

Answer 21

1. Identify your target sequence and design primers to flank the target
2. Recall the anti-parallel orientation of the top vs bottom strand
3. Notice the primers and identify the direction of chain grown from the free 3’ hydroxyl
4. Pay attention to the sequence of the primers, are they similar to the sequence of the bottom strand or top strand?

Question 22

Contrast forward and reverse primers

Answer 22

Forward primer sequence looks exactly like the top strand

Reverse primer sequence is reverse compliment of top strand (reverse because the language of DNA is read and spoken in the 5’ to 3’ direction)

Question 23

How can we clone with PCR products?

Answer 23

• All PCR products made with Taq polymerase have a 3’ dA overhang
• Special vectors are made with a 5’ dT overhang to simplify ligation during cloning of the PCR product