Difference between revisions of "20.109(S10):RNA to DNA by RT-PCR (Day5)"

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(New page: {{Template:20.109(S10)}} ==Introduction== ==Protocols== ===Part 1: Recover RNA=== #Centrifuge your samples at max speed for 15 minutes. #*You and partner can balance your tubes agains...)
 
(Part 2: RT-PCR)
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#Set up your reactions on a cold block as usual. From one of the shared stocks, pipet 30 μL of Master Mix into each well-labeled PCR tubes.
 
#Set up your reactions on a cold block as usual. From one of the shared stocks, pipet 30 μL of Master Mix into each well-labeled PCR tubes.
 
#*In the interests of economy, we will not run control reactions this time. ''However, if you wanted to test for contamination of your reaction, what component would you leave out?''
 
#*In the interests of economy, we will not run control reactions this time. ''However, if you wanted to test for contamination of your reaction, what component would you leave out?''
and 20 μL of Master Mix II into two more. The Master mixes contain water, buffer, dNTPS, primers, and and an enzyme mixture.
 
 
#Add 20 μL of your recovered RNA to the Master Mix.
 
#Add 20 μL of your recovered RNA to the Master Mix.
 
# The following thermal cycler program will be used:
 
# The following thermal cycler program will be used:

Revision as of 18:28, 6 January 2010


20.109(S10): Laboratory Fundamentals of Biological Engineering

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Introduction

Protocols

Part 1: Recover RNA

  1. Centrifuge your samples at max speed for 15 minutes.
    • You and partner can balance your tubes against each other.
  2. Collect the supernatants into a temporary waste bottle, such as a 15 mL conical tube.
  3. Add one mL of 70-80% ethanol to each sample, and vortex vigorously.
  4. Spin for two minutes at max speed.
  5. Repeat the wash step with 1 mL of fresh 70-80% ethanol.
  6. Dry your samples in the fume hood for 10 minutes, then resuspend each one in 44 μL of RNase-free water.

Part 2: RT-PCR

HAVE THEM DO THE CONTROL I DID, OF MAKING SURE 6-5 AND 8-12 AMPLIFY AT SAME RATE?

  1. The thermal cycler will be preheated to 50 °C while you prepare your samples. This is required for the procedure to work optimally.
  2. Set up your reactions on a cold block as usual. From one of the shared stocks, pipet 30 μL of Master Mix into each well-labeled PCR tubes.
    • In the interests of economy, we will not run control reactions this time. However, if you wanted to test for contamination of your reaction, what component would you leave out?
  3. Add 20 μL of your recovered RNA to the Master Mix.
  4. The following thermal cycler program will be used:
Segment Cycles Temperature (° C) Time Purpose
1 1 50 30 min reverse transcription
2 1 95 15 min activate polymerase, deactivate RT enzymes, denature template
3-5 20 94 30 sec denature (PCR)
57 1 min anneal (PCR)
72 1 min extend (PCR)
4 1 72 7 min final extension

After the RT-PCR is completed, the teaching faculty will store the samples in the freezer until next time.

PROBABLY WILL RUN OUT ON GEL (JUST DONE BY TEACHING FACULTY?) BUT NOT TAKE TIME TO PURIFY

Part 3: WAC Session

For next time

Reagent list

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