Dinh:Protocols/Capturing Nov13

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Revision as of 01:44, 8 December 2009 by >Dinh
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A. November 13, 2009 Bisulfite conversion of DNA using Zymo EZ DNA Methylation-Gold Kit

Reaction Mix (1x, 150ul):

Reagent Final Conc. #1 (3x) #2 #3
ddH20 10ul 15ul 19ul
Jurkat gDNA (203.9ng/ul) varies per tube 10ul 5ul 1ul
Conversion Reagent (prepared 11/6) 130ul 130ul 130ul

Reaction Program:

 98C -> 10 min
 64C -> 2.5 hours
 4C -> overnight

Column Purification *Washing was done twice:

1. Place a Zymo-Spin IC Column into a provided Collection tube.
2. Add 600 ul of M-Binding Buffer to spin column
3. Load the reaction mix into the spin column.
4. Close cap and mix by inverting 10 times. Centrifuge at 15K rpm for 30 s. Discard flow through.
5. Add 100ul of M-Wash Buffer. Centrifuge at 15K rpm for 30 s. Discard flow through.
6. Add 200ul M-Desulphonation Buffer and wait for 20 min. Centrifuge at 15K rpm for 30 s. Discard flow through.
7. Add 200ul M-Wash Buffer. Centrifuge at 15K rpm for 30 s. Discard flow through.
8. Add another 200ul M-Wash Buffer. Centrifuge at 15K rpm for 30 s. Discard flow through.
9. Place the column into 1.5ml microcentrifuge tube. Add 12ul M-Elution Buffer into center of column matrix. Wait 1 min. Centrifuge at 15K rpm for 30 s. 
10. Measure the DNA with Nanodrop (use M-Elution Buffer to blank)
Sample # Input Jurkat gDNA (ng) Output converted gDNA (ng) % yield
1 2039ng 198.8ng/ulx10ul = 1988ng 97%
2 1019.5ng 79ng/ulx10.5ul = 829.5ng 81%
3 203.9ng 20ng/ulx9.6ul = 192ng 94%

Notes:

Next time, repeat using 2x of sample 1 reaction and use 14ul M-Elution buffer to elute first column, then use flow-through to elute second column.

B. November 23, 2009 - PCR Amplification of Converted DNA

  • Primers - From IDT
  --------------------------------------------------
  0.1_F_chr22_31384238GTGAATAGGTTAAGTGAGGTAGAAG
  0.1_R_chr22_31384238AAAAAAATCAAACACCAACTATAAA
  0.8_F_chr21_39672131AAAATATTGGGATTATAGGTATGAGT
  0.8_R_chr21_39672131AACTTCTAAACTAACCAAAACAAAA
  0.9_F_chr8_119031762TTATAGTTTGGGTGATAGAGTAAGATT
  0.9_R_chr8_119031762AAACCCTAAACAAAATACTCAATATAA
  --------------------------------------------------

Reaction mix:

Reagent Final Conc. Vol (1x)
ddH20 7.5ul
NEB Tag 2x Master Mix 1x 20ul
Forward Primer (Chr8/21/22) (3.3uM) ~0.5uM 6ul
Reverse Primer (Chr8/21/22) (3.3uM) ~0.5uM 6ul
A/B/C/D 0.5ul
Total 40ul
A. Jurkat gDNA - 203.9 ng/ul
B. converted gDNA by Alan (200ng/ul)
C. 11-13 converted gDNA (400ng/ul)
D. 11-13 converted gDNA (135ng/ul)

Program:

      Step1   96C, 3m
      Step2   95C, 30s
      Step3   62C, 1m
      Step4   72C, 1m
      Step5   Go to step2 repeat 39 times
      Step6   72C, 5m
      Step7   4C,  Forever
      Step8   END

C. Capturing Protocol CpG30K

Note:

Used CpG30K (11/11, 7ng/ul)
100x probes to template ratio

Program: CAP30K

95 C -> 10 min
55 C -> forever (*)
55 C -> 4 hr
95 C -> 1 min
RAMP: 0.1 C/s -> 55 C
55 C -> 4 hr
Goto 4, 8x
55 C -> forever
95 C -> 5 min
37 C -> 1 hr (**)
94 C -> 5 min
4 C -> forever
* after at least 16 hr, add 2 ul SLN mix per reaction
** Add 2 ul Lambda Exonuclease I/III mix as soon as temperature is lowered to 37C

Nov 24 2009

Adding SLN Mix

Reagent Stock Conc Final Conc Volume to Add(ul)
Stofell 10 2 0.8
Ampligase 5 0.5 0.4
dNTP 1 0.2 0.8
10xLigase 10 1 0.4
H20 - - 1.6
4 TOTAL