& Pcr Essay, Research Paper
Josh Hyman
Per. 5
Plasmid Fusion
&
PCR
The AMGEN Lab that we have been doing for the past two weeks consisted of
two parts; Plasmid Fusion and PCR. Each one is a complicated procedure of genetic
engineering, with our own cheek cells and E.Coli supplied by AMGEN. I will start by
explaining the Plasmid Fusion lab.
The Plasmid Fusion lab consisted of four major parts; plasmid digestion, gel
electrophoresis, restriction enzyme inactivation and ligation, and the final step, plating out.
But, before I get into that I should define some parts of the lab. The main pieces of genetic
information we will be working with are plasmids. Plasmids are gene sequences found in a
loop outside of the main chromosome. Their main purpose is to code enzymes that digest
antibiotic enzymes. Antibiotics are chemicals that kill bacteria or interfere with their
growth or metabolism. Cells that have antibiotic resistance have an advantage because
they are able to grow in places that other cells can not.
Our main purpose in this lab is to give an E.Coli cell immunity to the antibacterials,
Ampicillin and Chloramphenicol by genetically doctoring its plasmids. The first step in
doing this is to cut the plasmids so that we can ligate the new pieces on later. The DNA
will be cut once twice or not at all because the process does not work all of the time with
all DNA. The part that makes the resistance enzyme will be left in tact and separated into a
smaller section of DNA. We do this so that we can isolate the genome so that we can later
attach other sections of DNA to it. The next step involves checking to see if the
Restriction Enzymes did their job by a process called Electrophoresis. First we suspend
the DNA in a solution of Agarose. Then an electric is applied, one end is + and the other
– . DNA forms ions, like most substances that dissolve in water. It separates into H+ and
DNA-. The DNA will move toward the + end through the Agarose. Since the Agarose
will stop many of the bigger pieces but the pieces that were cut will pass through because
they are smaller. Using a chemical called Ethidium Bromide (EtBr) and UV light we can
see how far our DNA made the journey. The farther it went the smaller the pieces and the
smaller the pieces the better the Restriction Enzymes worked. The next step involves three
chemicals; the two separated plasmids and a T4 ligator. Mixing these three together
should form one final strand. The two pieces will be ligated to form the correct genome.
The next step is to put the new resistant strand of DNA back into the E.Coli. This process
involves mainly hot and cold water. The DNA will be put in a iced solution with the cells.
The cells should have small holes in them to let the plasmid back in. They will then be
shocked by putting them in a hot water bath for two minutes and then put back into the
ice. The shock should open up the cell long enough for the plasmids to get through. If the
plasmid makes it through, the cell should accept the new plasmid and start producing the
resistance enzyme to Chloraphenicol and Ampicillin. The next and final part of the
experiment is referred to as plating out. The process involves four petri dishes, each
divided in half. Each petri dish contains a different substance. There is a Luria Broth (LB)
plate( Luria Broth is a excellent nutrient source for the E.Coli), a Chloraphenicol
plate(CAM), an Ampicillin plate(AMP) and a Chloraphenicol and Ampicillin
plate(CAM+AMP). We spread our new E.Coli over each plate and let it stand for 36
hours. The following results took place.
LB AMP CAM CAM/AMP
growth = + + +- + +-
none = -
little = +-
What these results mean is the following: Since there is growth on the Luria Broth
solution the cells are still alive and are able to reproduce; Since only two very tiny colonies
grew on the AMP plate we can assume that only a very few gained the Ampicillin
resistance; Since there was growth all over the Chloraphenicol we can assume that the
cells have been altered and that they can now grow in a antibacterial environment that
would have once killed them; Since there was only very little growth on the Ampicillin and
Chloraphenicol plate I will have to assume that the plate had either too much Ampicillin or
that just the presence of it in cell growth will kill cells.
The PCR lab was the second lab we did. PCR which stands for Polymerase chain
reaction. The main purpose of this lab was to extract our own DNA from our cheek cells,
prepare in for the PCR and then put it in the PCR machine. What PCR does and allows us
to do is make indefinite copies of DNA. Not just the whole strand, nature does that for us,
but we can copy just part of the DNA for intense studies.
The first part of the lab is to extract our own cells for the project. We did this by
gargling
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