Team:UIUC-Illinois/Notebook/Protocols

From 2012.igem.org

(Difference between revisions)
Line 45: Line 45:
                     <li><a name="prot12" >Subculturing Plates</a></li>
                     <li><a name="prot12" >Subculturing Plates</a></li>
                     <li><a name="prot13" >Transformation of E.Coli</a></li>
                     <li><a name="prot13" >Transformation of E.Coli</a></li>
 +
                    <li><a name="prot14" >4CL:STS Sequencing</a></li>
             </div>
             </div>
                  
                  
Line 539: Line 540:
2. If no colonies are formed plate out the rest of the transformants (~800 µl) and incubate at 37o C for 24 hrs<br/><br/>
2. If no colonies are formed plate out the rest of the transformants (~800 µl) and incubate at 37o C for 24 hrs<br/><br/>
</div>
</div>
 +
 +
<div id="prot14" style="display:none">
 +
 +
<center><h2>To sequence the 4CL:STS part from the parts registry</h2></center>
 +
 +
1. PCR the 4CL:STS mini prep DNA in the plastic box labeled “Other” in the -20C (this will be your template in the PCR rxn) Please do 6 total rxns for a total of 300 ul.<br/><br/>
 +
- For (3) 50 ul rnxs:<br/><br/>
 +
- 99.75 ul H2O<br/>
 +
- 30.00 ul HF Buffer<br/>
 +
- 3.00 ul dNTPs<br/>
 +
- 7.50 ul primer 1 (VF2 is the name 20 bp, TempMelt= 63.8C GC%= 50)<br/>
 +
- 7.50 ul primer 2 (VF is the name, 20 bp, TempMelt= 63.4C, GC%= 50)<br/>
 +
- 1.50 ul of template (microfuge tube of 4CL:STS mini prep in the “Other” box in -20C)<br/>
 +
- 0.75 ul of Phusion (preferably Phusion Hot start)<br/>
 +
- 150 ul total<br/><br/>
 +
2. Divide this 150 ul among 3 small PCR tubes<br/><br/>
 +
- Put them in the PCR machine with the conditions:<br/><br/>
 +
1. 98 deg C for 3:00 min<br/>
 +
2. 98 deg C for 0:15 sec<br/>
 +
        3. 64 deg C for 0:15 sec<br/>
 +
        4. 72 deg C for 1:30 min<br/>
 +
        * Go back to step 2, repeat 34 times*<br/>
 +
        5. 72 deg C for 5:00 min<br/>
 +
        6. 12 deg C for infinty <br/><br/>
 +
3. Make a 1% Agarose gel to gel purify the PCR, use the small comb that creates large wells, use the 1kb ladder (1.5 ul) in one lane. In another lane use all of the PCR product + 15 ul of 6X loading dye to dye the product. MAKE SURE IT IS A THICK GEL (use approx 50-70 ml of gel)<br/><br/>
 +
Band calculations:<br/><br/>
 +
- VF2 amplifies from approx 2020 bp of pSB1A3 to 2155 of pSB1A3= 135 bp<br/>
 +
- VF amplifies from approx 160 bp of pSB1A3 to 0 bp of pSB1A3= 160 bp<br/>
 +
- 4CL:STS part is 1815 bp long<br/>
 +
- TOTAL PCR band product: 2110 bp *look for this size band*<br/><br/>
 +
4. If you get a 2110 bp band, gel purify this band by cutting out the band and following gel purification protocol.
 +
if the band looks bright, elute with 50ul of H2O and incubate for 1:00 min<br/><br/>
 +
- If the band looks faint, elute with 30 ul of H2O and incubate for 5:00 min<br/>
 +
- If you can barely see the band, elute with 15 ul of H2O and incubate for 5:00 min<br/><br/>
 +
5. Make a second 1% Agarose gel to test the purification product, use the small comb that creates small wells, use the 1kb ladder (1.5 ul) in one lane. In another lane use 1 ul of the purification product + 1 ul of 6X loading dye to dye the product (this step is to make sure you didn’t lose your product in the purification step)<br/><br/>
 +
- Now these are the details for the next step. You don’t have to rush on this because hopefully I’ll be back to help you start this https://unicorn.biotec.illinois.edu/Sequencing_Protocol.pdf<br/><br/>
 +
This is a protocol for the sequencing PCR. We’ll need 75-100ng of DNA in order to start this step, so please do maybe 6 PCRs in step 1 to get enough DNA for this.<br/><br/>
 +
 +
</div>
 +
 +
</div>
</div>
</div>
</div>
</body>
</body>
</html>
</html>

Revision as of 17:18, 9 July 2012

Header

Protocols

Protocol Selection

  • Bootcamp Protocols
  • Digestions
  • Gel Purification
  • Inoculation
  • Ligation
  • Making Electrocompetent E.Coli
  • Making Electrophoresis Gels
  • Making TAE Buffers
  • Miniprep
  • PCR Protocols
  • Storage of Cells
  • Subculturing Plates
  • Transformation of E.Coli
  • 4CL:STS Sequencing
  • UIUC iGEM Protocols

    The standard protocols for each technique used in our project endeavors have been documented. Unless further noted all procedures are based off of those used by the lab of C. V. Rao.


    Retrieved from "http://2012.igem.org/Team:UIUC-Illinois/Notebook/Protocols"