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Molecular Biology / PCR / Variants of PCR / Ligation Mediated Suppression PCR

(adapted from McKinney et al., 1995, Siebert, 1995, Strauss et al., 2001 and Alonso et al., 2003)

 

PURPOSE:  To analyze unknown flanking genomic sequences adjacent to a T-DNA left border

 

1.) Isolation of DNA

            -collect 2-3 young leaves in an eppendorf tube

-add 100 uL extraction buffer and add proteinase K, grind tissue using a blue pestel (no large pieces of leaf should be left).

-add another 100 uL of extraction buffer, vortex, and incubate in 37C for 30 min.

           -add 200 uL of saturated phenol and vortex.

            -spin at max speed in centrifuge for 2 min.

            -collect upper phase to new eppendorf tube.

-add 200 uL of (24:1) chloroform:isoamyl alcohol, vortex, centrifuge at max speed for 2 min.

-collect upper phase into a new eppendorf tube.

-add 18 uL of 3M sodium acetate and add 400 uL of 100% EtOH, mix by inverting and incubate for 10 min at 4C.

-spin in centrifuge at max speed for 10 min.

-pour supernatant off and wash with 500 uL of 70% EtOH

-spin in centrifuge at max speed for 5 min.

-pour supernatant off and wash again with 500 uL of 70% EtOH

-spin in centrifuge at max speed for 5 min.

-pour off supernatant

-carefully pipette off excess EtOH

-let pellet dry for 45 min in the hood.

-resuspend DNA in 100 uL of TE

-store in -20C

 

 

2.) Digestion

-mix together:

           50 uL gDNA (from above)

            10 uL 10x Buffer 2

             1 uL    Hind III

            39 uL  dH2O

           TOTAL volume 100 uL

 

-digest overnight at 37C

 

 

3.) Digestion Clean Up

-heat inactivate at 65C for 20 min.

-add 100 ¦ÌL of chloroform

-mix by inverting tubes

-spin in centrifuge at max speed for 5 min.

-collect upper phase into a new eppendorf tube with 200 uL of isopropanol

-mix by inverting tubes

-incubate at room temperature for 10 min

-spin at max speed for 10 min

-remove supernatant

-wash with 100 uL of 70% EtOH

-spin at max speed for 5 min

-remove supernatant

-dry in hood for 45 min.

-resuspend in 20 uL of dH2O

 

 

4.) Constructing adapters for ligation

*adapters for ligation to Hind III ends are made by annealing oligos ADAPS-E1(5¡¯-aattcacctgcccgg/3AmMc7/-3¡¯) w/ a 3¡¯ amino terminal end and ADAPL-E1(5¡¯-ctaatacgactcactatagggctcgagcggccgcccgggcaggtg-3¡¯).  Oligos may be purchased from IDT at www.idtdna.com

 

-dilute ADAPS and ADAPL to 100uM

-combine in equal amts of ADAPS and ADAPL (i.e. add 10 ¦ÌL of ADAPS add 10 uL of ADAPL)

-vortex briefly

-place tube in 500 mL of boiling H2O for 2 min

-remove heat and let bath cool for 1 hr. (this is to ensure correct nucleotide pairing)

-store adapter at -20C

 

 

5.) Construction of Adapter Library (ligate adapter to digestion)

-mix together:

            10 uL     cleaned gDNA digestion

             1 uL       Adapter (100uM)

             2 uL       T4 ligase (NEB product)

             2 uL       10 x T4 ligase buffer (NEB buffer)

             5 uL        dH2O

             TOTAL volume 20 uL

-vortex and incubate at 16C overnight in thermocycler

-heat inactivate at 65 for 20 min

-add 180 uL of TE (this is your adapter library store at -20C)

 

 

 

6.) Primers for 1o and 2o PCR

 

*Primary products are generated from amplifying primers AP1 (5¡¯-ggatcctaatacgactcactataggc-3¡¯) and PgwLat52LB-WP1 (5¡¯-ctatgttactagatcgaccgg-3¡¯).

 

*Secondary products are generated by diluting primary products by 50 fold and amplifying with primers AP2 (5¡¯-tatagggctcgagcggccg-3¡¯) and PgwLat52LB-WP2 (5¡¯-caattcggcgttaattcagtac-3¡¯).

 

-Primers come from IDT and must be diluted to 10 uM concentration before using.

 

 

 

7.) Primary PCR

 

-mix together:

              0.125 uL     Ex Taq (Takara)

              2.5 uL        10 x Ex Taq Buffer

              2.0 uL        dNTP Mix

              1.0 uL        AP1

              1.0 uL        WP1

            17.375 uL      dH20

             1.0 uL         Adapter Library

           TOTAL volume 25 ¦ÌL

 

*Run on LMS_PCR2 (conditions recommended by Takara)

1.) incubate at 94C for 2 min

2.) incubate at 94C for 30 sec

3.) incubate at 55C for 30 sec

4.) incubate at 72C for 1 min

5.) recycle to step 2  for 29 more times

6.) incubate at 65C for 10 min

7.) hold at 4C forever

 

 

8.) Secondary PCR

*Dilute primary PCR:

   -98 uL of dH20

   -2 uL of primary PCR

 

*Rxn is setup exactly like primary PCR.

 

 

9.) Run on 1% Agarose Gel

5g           Agarose Low

500mL      1 x TAE

50uL         EtBr

 

*Always run a ladder to verify our bands are between 200 and 2000bp.  Should only sequence the lines that give a clear band. 

 

 

10.)Sequencing

*Need to clean up PCR rxn using Qiagen or Eppendorf kits.  Then setup the rxn to be sequenced.

 

- mix together:

             2 uL      cleaned secondary PCR

             1 uL      secondary primer (WP2)

           17 uL      dH20

            TOTAL volume 20 uL

 

*Sequencing is done through UNC Lineberger Comprehensive Cancer Center (located on campus), and normal turn around time can range from 1-7days. To access sequences go to http://152.19.68.152/gafsite/Main.asp  (listed as UNC-CH Genome Analysis under favorites).      

 

Run sequences through Signal website http://signal.salk.edu/cgi-bin/tdnaexpress. 

 

Unmapped lines can either be digested with a different enzyme (EcoRI),can try sequencing using PgwLat52RB primers, or try TAIL PCR.

*If you use EcoRI you must use the EcoRI adapter and then proceed as normal

 

 

Special Notes:

After secondary (nested) PCR, only lines with clear bands are sequenced. Bands are typically between 200 and 2000bp.  Lines resulting in a smear or no bands will not provide good sequence.  Not all lines with distinct bands will provide good sequence either (some bands are likely artifacts).

 

In our hands, LB mapping of EcoRI digests has up to 75% success rate.  The remaining lines can be mapped by a combination of RB-mapping (with appropriate RB primers), digesting with a different enzyme (i.e. HindIII) (with appropriate Adapter modifications), or TAIL PCR.

 

The WP1 and WP2 primers described above are specific to pBI121 and vectors with pBI121 left border regions.  Similar primers can be designed to sequence from right borders.  The nested primer (WP2) should be ~50 bp inside the T-DNA region to accommodate the possibility of border truncation.

 

Multiple inserts complicate the results. It is possible that each independent insert could result in a distinct nested PCR band.  Bands can be excised and sequenced.  It is possible to get sequence from both bands, however, by directly sequencing the nested PCR products. 

 

 

Alonso JM, Stepanova AN, Leisse TJ, Kim CJ, Chen H, Shinn P, Stevenson DK, Zimmerman J, Barajas P, Cheuk R, Gadrinab C, Heller C, Jeske A, Koesema E, Meyers CC, Parker H, Prednis L, Ansari Y, Choy N, Deen H, Geralt M, Hazari N, Hom E, Karnes M, Mulholland C, Ndubaku R, Schmidt I, Guzman P, Aguilar-Henonin L, Schmid M, Weigel D, Carter DE, Marchand T, Risseeuw E, Brogden D, Zeko A, Crosby WL, Berry CC, Ecker JR (2003) Genome-wide insertional mutagenesis of Arabidopsis thaliana. Science 301: 653-657

 

Siebert PD, Chenchik A, Kellogg DE, Lukyanov KA, Lukyanov SA (1995) An improved PCR method for walking in uncloned genomic DNA. Nucleic Acids Res 23: 1087-1088

 

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