Toronto/Lab Protocols/Quantitation

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< Toronto | Lab Protocols(Difference between revisions)
m (Quantitation)
(Quantitation)
 
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#* 1 μL plasmid + 4 μL ddH<sub>2</sub>O + 1 μL Loading Dye
#* 1 μL plasmid + 4 μL ddH<sub>2</sub>O + 1 μL Loading Dye
#* 1 μL insert + 4 μL ddH<sub>2</sub>O + 1 μL Loading Dye
#* 1 μL insert + 4 μL ddH<sub>2</sub>O + 1 μL Loading Dye
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{| style="text-align:center;" align="center"
+
{| style="text-align:center;" border=1 align=center
! Gel Lane !! Fragment
! Gel Lane !! Fragment
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|-

Latest revision as of 03:57, 27 October 2007

Quantitation

  1. Take the extracted DNA and run a gel to find out the concentration (per μL) of your DNA.
    • 1 μL plasmid + 4 μL ddH2O + 1 μL Loading Dye
    • 1 μL insert + 4 μL ddH2O + 1 μL Loading Dye
Gel Lane Fragment
1 HindIII Ladder (5 μL)
2 HindIII Ladder (2 μL)
3 HindIII Ladder (1 μL)
4 Blank
5 Plasmid (All of it)
6 Blank
7 Insert (All of it)
8 Blank
9 1 Kbp Ladder (3 μL)
  1. Ensure that the plasmid and inserts are at the correct lengths using the 1 Kbp ladder.
  2. Note that 2 μL of HindIII will twice as bright as 1 μL of HindIII, and 5 μL of HindIII will be five times as bright. So to determine concentration, estimate the intensity of the bands compared with the 3 HindIII ladders and assign it a relative intensity factor. Read off the concentration value on the Ladder card, and multiply by the relative intensity factor to determine your sample concentration in ng/μL.

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