Team:Lethbridge CCS/Notebook/October

From 2008.igem.org

(Difference between revisions)
(20 Oct 2008)
(21 Oct 2008)
 
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Line 101: Line 101:
   1 μL ''Dpn''I  
   1 μL ''Dpn''I  
-
* Incubated 1 hour at 37°C and then ran a gel
+
* Incubated 1 hour at 37°C and then ran a 1% agarose gel
 +
[[Image:DPN_gel.jpg|''Dpn''I digest of GFP|250px]]
   Lane 1: 1 kb GeneRuler ladder
   Lane 1: 1 kb GeneRuler ladder
   Lane 2: GFP with ''Dpn''I  
   Lane 2: GFP with ''Dpn''I  
Line 108: Line 109:
   Lane 5: LIC_GFP without ''Dpn''I  
   Lane 5: LIC_GFP without ''Dpn''I  
   Lane 6: 1 kb GeneRuler ladder
   Lane 6: 1 kb GeneRuler ladder
-
* gel looked a little strange (not well-defined), but seems to verify that our early amplification worked; Lane 2 had marks at a variety of lengths, indicating cutting of GFP with DPN, while the other lanes all looked very similar,with only one length, indicating there was very little template left in our LIC_GFP.  The only slightly puzzling thing was the length of the DNA it seemed to show (shorter than expected)
+
* gel looked a little strange (not well-defined), but seems to verify that our early amplification worked; Lane 2 had marks at a variety of lengths, indicating cutting of GFP with ''DpnI'', while the other lanes all looked very similar,with only one length, indicating there was very little template left in our LIC_GFP.  The only slightly puzzling thing was the length of the DNA it seemed to show (shorter than expected)
=== 16 Oct 2008 ===
=== 16 Oct 2008 ===
Line 117: Line 118:
** Notes: did not do optional PB buffer step; pellet of 1/100 #2 was very thin and elongated.
** Notes: did not do optional PB buffer step; pellet of 1/100 #2 was very thin and elongated.
-
* Prepared glycerol stocks of all four cultures.  Stored in HJ's -80°C
+
* Prepared glycerol stocks of all four cultures.  Stored in HJ's -80°C freezer.
* Quantified resulting plasmid concentrations using UV/vis spectrophotometer at 1:25 dilution.
* Quantified resulting plasmid concentrations using UV/vis spectrophotometer at 1:25 dilution.
-
'''Sample'''     '''Concentration (ng/μL)'''     '''260/280nm absorbance ratio'''
+
  '''Sample'''     '''Concentration (ng/μL)'''     '''260/280nm absorbance ratio'''
   1/10 #1              57                      1.83
   1/10 #1              57                      1.83
   1/10 #2              81                      1.83
   1/10 #2              81                      1.83
Line 153: Line 154:
* Performed T4 DNA polymerase digestions on ''Eco''RV-cut pSB1A2_LIC, and on PCR-amplified xylE_LIC and GFP_LIC.   
* Performed T4 DNA polymerase digestions on ''Eco''RV-cut pSB1A2_LIC, and on PCR-amplified xylE_LIC and GFP_LIC.   
-
  '''Vector'''                         '''Buffer'''
+
  '''Vector'''                                 '''Buffer'''
  dCTP          3.33 μL                dCTP                3.33 μL
  dCTP          3.33 μL                dCTP                3.33 μL
  T4 Buffer      2    μL                T4 Buffer            2    μL
  T4 Buffer      2    μL                T4 Buffer            2    μL
Line 161: Line 162:
* Performed Klenow fragment digestions on ''Eco''RV-cut pSB1A2_LIC, and on PCR-amplified GFP_LIC.   
* Performed Klenow fragment digestions on ''Eco''RV-cut pSB1A2_LIC, and on PCR-amplified GFP_LIC.   
-
  '''Vector'''                         '''Buffer'''
+
  '''Vector'''                                 '''Buffer'''
  dCTP          3.33 μL                dCTP                3.33 μL
  dCTP          3.33 μL                dCTP                3.33 μL
  NEBuffer2      1    μL                NEBuffer2            1    μL
  NEBuffer2      1    μL                NEBuffer2            1    μL
-
  pSB1A2_LIC    2.5  μL                GFP_LIC               2.5  μL
+
  pSB1A2_LIC    2.5  μL                GFP_LIC             2.5  μL
-
  T4 Polymerase  0.4  μL                T4 Polymerase        0.4  μL
+
  Klenow        2    μL                Klenow              2    μL
-
  Water          1.77 μL                Water                1.77 μL
+
  Water          1.17 μL                Water                1.17 μL
   
   
 +
* For both T4 & Klenow treatments, let digestion run for 20 minutes at 37°C.
 +
* Purified T4- & Klenow-digested DNA with Qiagen MinElute PCR purification kit.
* Purified T4- & Klenow-digested DNA with Qiagen MinElute PCR purification kit.
Line 185: Line 188:
(Peter, Elizabeth, Glenda, Marc)
(Peter, Elizabeth, Glenda, Marc)
-
+
-
* Preparing for transformation of T4-treated vectors & inserts after LIC process:
+
* Mixed T4- and Klenow-treated vectors with corresponding inserts (10 min at room temp.) to allow LIC overhangs to interact, aiming for approximately 3:1 insert:vector molar ratio.
-
* Mixed T4- and Klenow-treated vectors with corresponding inserts to allow LIC overhangs to interact, aiming for approximately 3:1 insert:vector molar ratio.
+
   1 μL T4-treated pSB1A2_LIC 100 + 3 μL T4-treated GFP_LIC
   1 μL T4-treated pSB1A2_LIC 100 + 3 μL T4-treated GFP_LIC
   1 μL T4-treated pSB1A2_LIC 10  + 2 μL T4-treated xylE_LIC
   1 μL T4-treated pSB1A2_LIC 10  + 2 μL T4-treated xylE_LIC
   1 μL Klenow-treated pSB1A2_LIC + 3 μL Klenow-treated GFP_LIC
   1 μL Klenow-treated pSB1A2_LIC + 3 μL Klenow-treated GFP_LIC
-
* after 10-minute mixing time (at room temperature), added to 25 μL DH5α chemically competent cells, and left on ice for 30 minutes.
+
* Transformation of LIC-treated vectors:
-
* 30-second heat-shock at 42°C
+
** Added each set of mixed vectors & inserts to 25 μL DH5α MaxEfficiency chemically competent cells, and left on ice for 30 minutes.
-
* 2 minutes on ice
+
** 30-second heat-shock at 42°C
-
* added 900 μL SOC medium to each tube, and left in shaker at 37°C for one hour
+
** 2 minutes on ice
 +
** added 900 μL SOC media to each tube, and left in shaker at 37°C for one hour
 +
* Plated 100 μL of each culture on LB+Amp plates ('dilute')
 +
* Pelleted remaining cells, removed 800 μL media, and plated remaining 100 μL culture on LB+amp plates ('concentrated')
-
[[Team:Lethbridge_CCS/Notebook|Back to Main CCS Notebook]].
+
=== 21 Oct 2008 ===
 +
(Peter)
 +
 +
* Checked plates from LIC transformation.
 +
 +
'''Transformation'''                    '''No. of colonies'''
 +
T4 GFP_LIC    - dilute                    6
 +
                - concentrated            ~30
 +
T4 xylE_LIC    - dilute                ~100
 +
                - concentrated          ~500
 +
Klenow GFP_LIC - dilute                    1
 +
                - concentrated            ~15
 +
 +
* Transformation seems to have worked, since colonies were observed.  None of them were green, however, so the LIC procedure didn't work.  Unfortunately, we don't have time to carry out more trials, so we are not sure why not.
 +
 +
=== 27 Oct 2008 ===
 +
 +
* Sent off pSB_LIC part to the Registry
 +
 +
=== 28 Oct 2008 ===
 +
 +
(all)
 +
 +
* Met with U of L team to practice Jamboree presentations, and to provide & receive feedback.
 +
 +
[[Team:Lethbridge_CCS/Notebook|Back to Main CCS Notebook]].
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Latest revision as of 23:38, 29 October 2008

For earlier work, see September Notebook, or go back to Main CCS Notebook.

Contents

4 Oct 2008

(Marc, Glenda, Nathan)


Met to discuss why we had not obtained green colonies from our transformation as expected. There was definitely cutting happening from the EcoRV digest, but the bands showed up at the wrong size. Final conclusion was that probably nothing had worked right from step 1! Most likely what we thought was pSB1A7 actually wasn't, a conclusion we came to based on our own funny results, and on some of the results obtained by the U of L team. So we've probably just been seeing the original template plasmid in all our follow up gels, etc. Decided to start again, this time using pSB1A2 (though it doesn't have the double terminators we would actually like to see), as the U of L team has it and knows it works. So new primers were designed for this, as well as for xylE, a gene the ULeth team is using, which we hope to use to see whether we can really build a 'new' BioBrick using our method.

6 Oct 2008

(Peter, Elizabeth, Glenda, Nathan)

Reviewed Saturday's discussion; checked that primers were correct and sent off order; discussed our logo and ordering of T-shirts; reviewed steps we would have to go through once our new primers arrive

11 Oct 2008

(Peter, Elizabeth, Marc, Glenda)

  • Roxanne had already resuspended and diluted our primers (psB1A2 forward and reverse; LIC_xylE forward and reverse) [100 μM stock; 10μM working].
  • Set up and ran PCRs on pSB1A2 and LIC_xylE
    • for each, we did 1 x, 1/10 x and 1/100 x of our template and a range of annealing temperatures (54°C, 58°C, 62°C for pSB1A2; 48°C, 52°C, 56°C for LIC_xylE), giving nine variations for each PCR;
    • used materials and amounts as per Phusion polymerase kit
- Cycling temperatures and times for PCR
    Initial denaturation           98°C                 30 sec    ___
    Denaturation                   98°C                 10 sec       |
    Annealing                      gradient as above    30 sec       |--- 30 cycles
    Extension                      72°C                  1 min    ___|
    Final extension                72°C                 10 min
    Hold                           4°C                  hold
  • numbering:
            54°C      58°C      62°C
      1x      1         4         7
   1/10x      2         5         8
  1/100x      3         6         9
  • ran a 1% agarose gel on pSB1A2_LIC; expected size ~2000 bp. No results. After discussion, we think this may be due to erroneously putting in only enough polymerase for one reaction, not 10.

pSB1A2 LIC gel [lanes: 1kb ladder, 1-5, 1kb ladder, 6-9, blank, 1kb ladder]

  • ran a 1% agarose gel on xylE_LIC; expected size ~1000bp.

xylE LIC gel [lanes: 1kb ladder, 1-5, 1kb ladder, 6-9, blank, 1kb ladder]

13 Oct 2008

(Peter, Marc - yes, we were in the lab on Thanksgiving!)

  • Re-did PCR of pSB1A2, this time using GFP complete (1) plasmid-prepped by Roxanne.

Second pSB1A2 LIC gel [Lanes: 1kb ladder, 1-9, blank, 1kb ladder]

  • Seems to have worked. Possible problem: circular pSB1A2 with GFP complete (~3000bp) may run at the same place as linear pSB1A2 alone (~2000bp). Will run another gel tomorrow to check.

14 Oct 2008

(Marc)

  • Ran 1% agarose gel to check where pSB1A2 with GFP complete (template for our pSB1A2 PCR) runs on a gel.

pSB1A2 / GFP check gel [Lanes: 1kb ladder, GFP complete (1), #2, #5, #8, 1kb ladder]


  • Unfortunately, template (circular) runs at the same place as our PCR product. We could possibly digest the BioBrick plasmid first; then at least there wouldn't be any competition for transformation.


(Elizabeth, Peter, Glenda)

  • Used Fermentas Rapid Ligation kit on our around the world PCR products(1/10, 1/100 concentration, 54°)
 1 μL PCR product
 2 μL 5x buffer              incubated for 1 hour at room temperature
 1 μL ligase
 6 μL Water


  • Did a transformation of ligated DNA into highly competent cells (using 1 μL ligation mix (1/10, 1/100, pUC19 control))
    • left on ice for 30 min
    • heat-shock for 30 sec at 42 degrees
    • ice for 2 minutes
    • add 900 μL SOC medium, 1 hour in shaker at 37 degrees
    • plated concentrated and dilute of each of above dilutions
    • incubated overnight
  • At the U of L iGEM meeting, we discussed our concern about template running at same place as PCR product. HJ recommended doing a DpnI digest since this would cleave the template but leave our PCR product intact. We could then run a gel to compare sizes.

15 Oct 2008

(Glenda, Elizabeth, Peter)

  • Interestingly enough, where we had expected to see all or almost all green colonies (if template was present as expected), but in fact there were only white colonies
  • Grew up colonies (2 each from our 1/10 and 1/100 dilute plates)
    • 5 μL ampicillin, add with colonies to culture
    • Incubate at 37°C for 12 hours
  • Set up DpnI digestion
 15 μL PCR product/template (used 1x LIC_GFP) 
 1.75 μL 10x Tango buffer 
 1 μL DpnI 
  • Incubated 1 hour at 37°C and then ran a 1% agarose gel

DpnI digest of GFP

  Lane 1: 1 kb GeneRuler ladder
  Lane 2: GFP with DpnI 
  Lane 3: GFP without DpnI 
  Lane 4: LIC_GFP with DpnI 
  Lane 5: LIC_GFP without DpnI 
  Lane 6: 1 kb GeneRuler ladder
  • gel looked a little strange (not well-defined), but seems to verify that our early amplification worked; Lane 2 had marks at a variety of lengths, indicating cutting of GFP with DpnI, while the other lanes all looked very similar,with only one length, indicating there was very little template left in our LIC_GFP. The only slightly puzzling thing was the length of the DNA it seemed to show (shorter than expected)

16 Oct 2008

(Elizabeth, Marc)

  • Performed miniprep of pSB1A2_LIC from 'LIC_GFP' cultures, as per QIAprep Spin Kit.
    • Notes: did not do optional PB buffer step; pellet of 1/100 #2 was very thin and elongated.
  • Prepared glycerol stocks of all four cultures. Stored in HJ's -80°C freezer.
  • Quantified resulting plasmid concentrations using UV/vis spectrophotometer at 1:25 dilution.
  Sample     Concentration (ng/μL)     260/280nm absorbance ratio
 1/10 #1               57                      1.83
 1/10 #2               81                      1.83
1/100 #1               88                      1.95
1/100 #2               50                      1.90
  • Ran 1% agarose gel to check size of purified plasmid (5 μL loading volumes; 100V for 25min)

pSB1A2_LIC_pur_gel [Lanes: 1/25 dilution of 1/10 #1, 1kb ladder (punctured well?), 1/10 #1, 1/10 #2, 1/100 #1, 1/100 #2, 1kb ladder, 1/25 dilution of 1/10 #2]

  • All plasmid preps seem to have worked; circular plasmid is running a little below 2000bp, which seems a little small but is probably OK. May be due to insufficiently resolved gel.

17 Oct 2008

(Glenda, Elizabeth, Peter)

  • Set up EcoRV digest of purified pSB1A2_LIC plasmid (Fermentas)
- components and amounts (for each of 4 colonies grown up previously)
    DNA      5 μL                             
    Buffer   1 μL           incubated overnight                       
    EcoRV    1 μL
    Water    3 μL

18 Oct 2008

(Paul, Peter, Elizabeth, Marc)

  • Ran 1% agarose gel to check results of yesterday's EcoRV digest. (2 μL loading volumes; 5 μL ladder; 100V for 35 min)

pSB1A2_LIC_EcoRV_gel [Lanes: 1kb ladder, 1/10 #1 Cut & Uncut, 1/10 #2 Cut & Uncut, 1/100 #1 Cut & Uncut, 1/100 #2 Cut & Uncut, 1kb ladder]

  • Some strange results, but there was definitely digestion. It seems that 1/10 #1 may not have been fully digested; no idea why the uncut 1/100 #1 didn't show up. The #2 samples, which look 'normal', will be used for subsequent steps.
    • NB: uncut plasmid is around 1700bp, which is a little smaller than it looked on the previous gel. Cut (linear) plasmid is right around 2000bp where it belongs.
  • Performed T4 DNA polymerase digestions on EcoRV-cut pSB1A2_LIC, and on PCR-amplified xylE_LIC and GFP_LIC.
Vector                                 Buffer
dCTP           3.33 μL                 dCTP                 3.33 μL
T4 Buffer      2    μL                 T4 Buffer            2    μL
pSB1A2_LIC     2.5  μL                 xylE_LIC or GFP_LIC  2.5  μL
T4 Polymerase  0.4  μL                 T4 Polymerase        0.4  μL
Water          1.77 μL                 Water                1.77 μL
  • Performed Klenow fragment digestions on EcoRV-cut pSB1A2_LIC, and on PCR-amplified GFP_LIC.
Vector                                 Buffer
dCTP           3.33 μL                 dCTP                 3.33 μL
NEBuffer2      1    μL                 NEBuffer2            1    μL
pSB1A2_LIC     2.5  μL                 GFP_LIC              2.5  μL
Klenow         2    μL                 Klenow               2    μL
Water          1.17 μL                 Water                1.17 μL

  • For both T4 & Klenow treatments, let digestion run for 20 minutes at 37°C.
  • Purified T4- & Klenow-digested DNA with Qiagen MinElute PCR purification kit.
  • Checked concentrations of T4- & Klenow-treated DNA samples using UV/vis spectrophotometer (1:50 dilution)
   Sample             Concentration (ng/μL)     260/280nm absorbance ratio
 T4 pSB1A2_LIC 10             41                        1.29
 T4 pSB1A2_LIC 100            69                        1.07
 T4 xylE_LIC                  75                        1.74
 T4 GFP_LIC                   66                        1.81
 Klenow pSB1A2_LIC            47                        1.27
 Klenow GFP_LIC              243                        1.53      — concentration very high - not sure why
  • Stored purified plasmids & inserts in freezer overnight.

20 Oct 2008

(Peter, Elizabeth, Glenda, Marc)

  • Mixed T4- and Klenow-treated vectors with corresponding inserts (10 min at room temp.) to allow LIC overhangs to interact, aiming for approximately 3:1 insert:vector molar ratio.
 1 μL T4-treated pSB1A2_LIC 100 + 3 μL T4-treated GFP_LIC	
 1 μL T4-treated pSB1A2_LIC 10  + 2 μL T4-treated xylE_LIC
 1 μL Klenow-treated pSB1A2_LIC + 3 μL Klenow-treated GFP_LIC
  • Transformation of LIC-treated vectors:
    • Added each set of mixed vectors & inserts to 25 μL DH5α MaxEfficiency chemically competent cells, and left on ice for 30 minutes.
    • 30-second heat-shock at 42°C
    • 2 minutes on ice
    • added 900 μL SOC media to each tube, and left in shaker at 37°C for one hour
  • Plated 100 μL of each culture on LB+Amp plates ('dilute')
  • Pelleted remaining cells, removed 800 μL media, and plated remaining 100 μL culture on LB+amp plates ('concentrated')

21 Oct 2008

(Peter)

  • Checked plates from LIC transformation.
Transformation                     No. of colonies
T4 GFP_LIC     - dilute                    6
               - concentrated            ~30
T4 xylE_LIC    - dilute                 ~100
               - concentrated           ~500
Klenow GFP_LIC - dilute                    1
               - concentrated            ~15
  • Transformation seems to have worked, since colonies were observed. None of them were green, however, so the LIC procedure didn't work. Unfortunately, we don't have time to carry out more trials, so we are not sure why not.

27 Oct 2008

  • Sent off pSB_LIC part to the Registry

28 Oct 2008

(all)

  • Met with U of L team to practice Jamboree presentations, and to provide & receive feedback.

Back to Main CCS Notebook.

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