What the fuck is PCR?

PCR is a laboratory protocol for generating significant numbers of copies of a subsequence of a DNA template, via repeated exposure to an enzyme capable of synthesizing molecules of DNA.

How does it work?

Short nucleotide sequences called primers are specifically made-to-order to bind (complement) to the start and end of a sequence of interest (for some extracted DNA)

are specifically made-to-order to bind (complement) to the start and end of a sequence of interest (for some extracted DNA) DNA (the template ) is prepared with those primers , dNTPs (basically loose nucleotides) and a polymerase enzyme

) is prepared with those , (basically loose nucleotides) and a enzyme Prepped solutions of between 20-50ul are inserted in a thermal cycler : a machine that alters the temperature to control an exponential DNA amplification via repeated cycles (typically around 30) consisting of three stages: Denaturing template DNA melted at high temperature to yield single strands (exposing strands to primers) Annealing temperature lowered 1 to anneal primers to single stranded template Extending 2 polymerase binds to both ends of primers and begins to elongate a new strand with the floating dNTPs

are inserted in a : a machine that alters the temperature to control an exponential DNA amplification via repeated cycles (typically around 30) consisting of three stages: Each cycle creates two new double stranded DNAs from each molecule of DNA present, theoretically the DNA product doubles with each cycle 3

Typically can amplify subsequences of template up to 10kbp

What do I need?

Reagents

Ice box containing: Taq polymerase Taq buffer Template DNA dNTP mix Forward and reverse primers

Fridge box containing: HPLC-grade water



Equipment

Vortex

Centrifuge

Thermal Cycler

Access to HPLC-grade water dispenser and UV Crosslinker

Bits and pieces4

P2, P10, P100, P200, P1000 pipettes (and appropriate tips)

Eppendorf tubes (500ul, 1.5ml)

PCR tubes (200ul) + caps (if not attached)

Multi-format tube rack

Waste bin

Gloves

What are those things?

Taq polymerase

A highly thermostable polymerase enzyme (a molecular machine for assembling long chains of nucleic acids) isolated from (and named after) the Thermus aquaticus bacterium; an extremophile that is capable of thriving in high temperature environments (favouring 70°C, but tolerating anything between 60-80°C). Polymerase drives the elongation or extension process of PCR. In the late 1980s, it was discovered that polymerase isolated from Thermus aquaticus could actually withstand the temperatures involved in the annealing step where DNA is melted into its two strands. The polymerase was refined and mass produced for commercial sale; now PCR could be completed without re-adding a polymerase at the end of every cycle!

Taq buffer

PCR buffers attempt to maintain optimal conditions for the activity of polymerases during PCR. Various ingredients can chelate ions that are required for enzymatic activity to reduce degradation of reagents, and unwanted reactions.

Template DNA

Your already extracted and purified DNA sample that contains some sequence that you desire to amplify.

dNTP Mix

Named so as deoxynucleoside triphosphate doesn’t roll off the tongue so well. dNTP mix is essentially a grab bag of the four nucleotides. During the elongation cycle of PCR, polymerases utilize free dNTPs to synthesize new chains of nucleic acids to create complementing strands.

Primers

A pair of short sequences ( 15-30bp ) of nucleic acids designed to complement two ends of a target subsequence of interest on your template DNA. Good primers are 40-60% GC-content, have similar annealing temperatures and should not be self-complementary, or complementary to another primer in the mix.

HPLC-grade water

High-performance liquid chromatography (HPLC) is a technique to identify and separate individual components of a mixture. HPLC-grade water is deionized, filtered, UV-filtered and in general, pretty fucking clean. The goal is to prevent contamination of reagents with nucleases.

How do I make the PCR happen?

Pre-prep

Gather equipment, ensure your reagents are not depleted, check whether someone has stolen the power lead for the thermal cycler

Place tube racks in freezer to keep them cold (this helps maintain the integrity of reagents)

Collect HPLC water (if necessary) and run through UV crosslinker to denature any residual proteins

Prep

Retrieve tube racks from freezer

Move dNTPs, primers and template from ice box onto tube rack to thaw, it is essential that these are returned to the ice box as soon as possible once fully thawed

NEVER allow Taq Polymerase to reach room temperature.

Ensure reagents have fully thawed to avoid aspirating solutes of incorrect concentrations.

Briefly vortex and centrifuge (a few seconds at ~ 5-10Krpm ) Taq buffer and dNTP mix

The buffer must be vortexed to ensure its components are mixed thoroughly.

Prepare a working dNTP mix (if required)

dNTP mix is often shipped at a high concentration ( 100mM ) and in such cases must be diluted to a more practical “working mix” before it is practical to pipette into PCR tubes. This also prevents having to repeatedly freeze-thaw your master mix.

Calculate the volume of master dNTP mix required to create a more practical solution; say 250ul at a concentration of 2mM :



required to create a more practical solution; say at a concentration of : Aspirate and dispense the solvent first (it is easier to pipette a small volume into a larger one). For our 250ul working mix that contains 5ul of the master mix, we must dispsense 245ul of HPLC water into a 1.5ml Eppendorf tube.

working mix that contains of the master mix, we must dispsense of into a Eppendorf tube. Vortex and centrifuge the dNTP mix briefly if you have not already done so

briefly if you have not already done so Add 5ul of master mix to the new working mix tube

of master mix to the new working mix tube Aspirate and dispense repeatedly and carefully to wash the pipette tip and mix the new solution

Return the 100mM master mix and new suitably labelled 2mM working mix to the ice box

Preparing the PCR tubes

Lay out the necessary number of required PCR tubes on a cold rack

Calculate all necessary dilutions before you begin pipetting (consider your protocol parameters; reaction size, desired dilutions of template, primer and dNTP mix): dNTPs

Primers (forward and reverse)

Although the protocol specification requires a final concentration of between 0.1-1.0uM of each primer, it seems that in general (your mileage will vary), people tend to add excess to give a final concentration up to 2uM. For example 2ul of a 50uM ( 50pmoles/ul ) working primer solution. Template



you begin pipetting (consider your protocol parameters; reaction size, desired dilutions of template, primer and dNTP mix): Remove Taq Buffer from ice box and pipette the volume required by your protocol (my protocol stated 10ul ) into all tubes, return the temperature-sensitive Taq Buffer to ice (or the freezer) as soon as possible

It is highly recommended that Taq Buffer is the reagent to be added first. As a buffer, it is responsible for preventing unwanted enzymatic activity such as denaturing (or early annealing) of template DNA and primers.

The rest of the reagents can be added in no particular order, with the exception of Taq Polymerase , which comes later: dNTPs Primers (ensure both forward and reverse primers are added) Template DNA

, which comes later: For each tube, sum the volumes of its reagents (don’t forget the polymerase, which is not yet in the tube) and subtract this total from the target volume required by your protocol (again, here, 50ul )

) Add those amounts of HPLC water (the volume to add may differ between tubes if differing volumes of primer or template were added) to bring up the total volume of each sample tube to the target volume (less the polymerase)

(the volume to add may differ between tubes if differing volumes of primer or template were added) to bring up the total volume of each sample tube to the target volume (less the polymerase) Ready (switch on and program) the thermal cycler before adding Taq Polymerase (reactions begin as soon as it is added, albeit at room temperature)

(reactions begin as soon as it is added, albeit at room temperature) Remove Taq Polymerase from ice, vortex gently and centrifuge briefly to remove excess from the walls of its tube 5

from ice, vortex gently and centrifuge briefly to remove excess from the walls of its tube Add between 0.5–2.0 units of polymerase per 50ul reaction, our protocol recommended 1.25u , I added slightly more to make it easier to aspirate with a pipette, return to ice (or freezer) as soon as possible

of polymerase per reaction, our protocol recommended , I added slightly more to make it easier to aspirate with a pipette, return to ice (or freezer) as soon as possible Seal PCR tubes (close lids or seal caps6)

Thermal Cycling

Load tubes into thermal cycler immediately (your reaction has begun!)

If you are feeling particularly prepared, you could preheat the lid of your cycler to ensure the hot-start PCR begins more quickly.

Ensure lid is as tight as possible (if it has a lid that needs manual tightening to push the heated block 7 against the tops of tubes)

against the tops of tubes) Load and check program schedule (does it have a sensible run time? Has someone in your lab accidentally sabotaged it in the last five minutes?)

Ensure there is an infinite store step at less than 5°C following the end of the final cycle of your program. Unless you want all of your work destroyed at room temperature. This is especially important if you are running PCR before going home for 12 hours.

Run program!

Watch in horror as you allow the machines to take over everything and probably ruin your experiment

What do I do now?

PCR product must be kept in the fridge or freezer

Verify fragments of the expected size (or anything at all) were amplified with gel electrophoresis

How do I fuck it up?

There are a multitude of ways that PCR can fail. Due to the number of reagents required in each tube, and lots of pipetting it is quite trivial to make a mistake. Helpfully, it is typically not possible to establish the cause and the process must be repeated. Lots of attention to detail is required, especially if there is more than one template, or more than one set of primers that make up individual reactions.