Noi/NOTES/2014-6-2: Difference between revisions
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= RRBS library preparation of colon tumor tissue samples from Biochain = | = RRBS library preparation of colon tumor tissue samples from Biochain = | ||
* [[http://genome-tech.ucsd.edu/LabNotes/index.php/noi:DMR220k_LabNotes '''Link to calendar''']] | * [[http://genome-tech.ucsd.edu/LabNotes/index.php/noi:DMR220k_LabNotes '''Link to calendar''']] | ||
* References | |||
** scRRBS: [http://genome.cshlp.org/content/23/12/2126.full.pdf] | |||
** Standard RRBS (Nature Protocols): [http://www.nature.com/nprot/journal/v6/n4/pdf/nprot.2010.190.pdf] | |||
** Gel-free RRBS (multiplexed): [http://genomebiology.com/content/pdf/gb-2012-13-10-r92.pdf] | |||
==== Sample list and details ==== | ==== Sample list and details ==== | ||
* Sample type: genomic DNA from primary tumor tissue | * Sample type: genomic DNA from primary tumor tissue |
Revision as of 21:42, 2 June 2014
RRBS library preparation of colon tumor tissue samples from Biochain
- [Link to calendar]
- References
Sample list and details
- Sample type: genomic DNA from primary tumor tissue
- Colon tumor tissue, frozen (CTT-frozen): re-quantified concentration with Qubit dsDNA HS assay
- Colon tumor tissue, FFPE (CTT-FFPE)
- 2014-06-01, I added TE buffer to make conc. to 50ng/ul (total volume 40ul) based on original conc. and re-measured conc. with Qubit dsDNA HS assay again (1ul for the assay).
- Dr. Zhang suggested to do two replicates for each level
- I will spike in 0.5% of unmethylated lambda DNA to check bisulfite conversion rate.
Sample Original conc. (ng/ul) Estimate volume (ul) Dilute to 50ng/ul (total volume) Add TE buffer (ul) Qubit conc. (ng/ul) CTT-Frozen 580.00 3.45 40.00 36.55 52.3 CTT-FFPE 76.00 26.32 40.00 13.68 64.8
Library preparation
- Low-input RRBS (5ng)
- Standard RRBS (100ng)
Experimental procedures
- I firstly dilute CTT gDNA to 2ng/ul volume 50ul
Sample Conc. (ng/ul) Stock volume (ul) TE (ul) CTT-frozen 52.30 1.91 48.09 CTT-FFPE 64.80 1.54 48.46
- For 5ng input, I will add 25pg of unmethylated lambda DNA (add 2.08ul of stock 12pg/ul)
- For 100ng input, I will add 0.5ng of unmethylated lambda DNA (add 0.5ul of stock 1ng/ul)
1) DNA fragmentation with MspI
1.1) Low-input RRBS MspI digestion set up
CCT-5ng_1 CTT-5ng_2 CTT-F-5ng_1 CTT-F-5ng_2 5ng NTC
Sample Conc. (ng/ul) Volume for 5ng (ul) 10X Tango Buffer MspI (10U/ul) 12pg/ul unmeth-lambda DNA H2O (ul) Total (ul) 1.1 CTT-frozen 2.00 2.5 2.00 1.00 2.08 10.42 18.00 1.2 CTT-FFPE 2.00 2.5 2.00 1.00 2.08 10.42 18.00 1.3 NTC 0.00 2.5 2.00 1.00 2.08 10.42 18.00
- MspI reaction mix I
Components 1 rxn 5.5 rxn mix MspI (10U/ul) 1.00 5.50 10X Tango Buffer 2.00 11.00 12pg/ul unmeth-lambda DNA 2.08 11.44 H2O 10.42 57.31 Total 15.50
- - Aliquot 15.50ul to each tube
- - Add 2.5ul of diluted CTT DNA to each tube
- - Mix by gentle pulse-vortexting for 10x (put reaction tube on PCR rack) and spin down
1.2) STD RRBS MspI digestion set up
CCT-100ng_1 CTT-100ng_2 CTT-F-100ng_1 CTT-F-100ng_2 100ng NTC
Sample Conc. (ng/ul) Volume for 100ng (ul) 10X Tango Fuffer MspI (10U/ul) H2O to adjust volume (ul) 1ng/ul unmeth-lambda DNA H2O in MspI mix(ul) Total (ul) 1.1 CTT-frozen 52.30 1.91 2.00 1.00 5.09 0.50 7.50 18.00 1.2 CTT-FFPE 64.80 1.54 2.00 1.00 5.46 0.50 7.50 18.00 1.3 NTC 0.00 0.00 2.00 1.00 7.00 0.50 7.50 18.00
- MspI reaction mix II
Components 1 rxn 5.5 rxn mix MspI (10U/ul) 1.00 5.50 10X Tango Buffer 2.00 11.00 1ng/ul unmeth-lambda DNA 0.5 2.75 H2O 10.00 41.25 Total 11.00
- - Add H2O to adjust volume as table above
- - Aliquot 11ul to each tube
- - Add CTT DNA to each tube following the number in table above
- - Mix by gentle pulse-vortexting for 10x (put reaction tube on PCR rack) and spin down
- - Incubate at 37C for 3hr
- - Heat inactivate at 65C for 20min