Team:BostonU/Notebook

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<li><a href="#">Considerations</a>  
<li><a href="#">Considerations</a>  
<ul>
<ul>
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<li><a href="https://2012.igem.org/Team:BostonU/Advancement">Synthetic Biology Advancement</a></li>
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<li><a href="https://2012.igem.org/Team:BostonU/NEGEM">New England iGEM Regional Meeting</a></li>
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<li><a href="https://2012.igem.org/Team:BostonU/NEGEM">New England iGEM Regional Meeting</a></li>
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<li><a href="https://2012.igem.org/Team:BostonU/Human Practices">Human Practices</a></li>  
<li><a href="https://2012.igem.org/Team:BostonU/Human Practices">Human Practices</a></li>  
<li><a href="https://2012.igem.org/Team:BostonU/Safety">Safety</a></li>
<li><a href="https://2012.igem.org/Team:BostonU/Safety">Safety</a></li>

Revision as of 01:29, 13 September 2012

BostonU iGEM Team: Welcome


Weekly Notebook


May

Week 5: Warming up!

  • We met with our mentors and got an overview of the basics of synthetic biology, namely characterization, which will be the focus of our works during the summer. We also went through the “MoClo” technique, which we intend to introduce to iGEM.
  • We did a survey of previous iGEM teams that got the Best Experimental Measurements award, then presented the findings to our mentors.

June

Week 1

  • We performed PCR to amplify pMJSAF(LacZ) using the following MoClo forward and reverse primers: DVL0_AF with DVL0_BR (MF1), DVL0_BF with DVL0_CR (MF2),  DVL0_CF with DVL0_DR (SJ1) and DVL0_DF with DVL0_ER (SJ2). We performed Gel Electrophoresis to confirm that pMJSAF was amplified in PCR:  The gel ran for too long thus the bands ran off of the gel. which can be seen towards the bottom of the picture. We expect for the band to be around 500 bp.

  • We reperformed the PCR amplification of pMJSAF with the same pairs of primers: DVL0_AF with DVL0_BR (MF3), DVL0_BF with DVL0_CR (MF4), DVL0_CF with DVL0_DR (SJ3), DVL0_DF with DVL0_ER (SJ4). We performed Gel Electrophoresis on this set of DNA.

  • The amplification of pMJSAF displayed strong bands at 500 bp for the primers : DVL0_BF with DVL0_CR and DVL0_DF with DVL0_ER. However for the   DVL0_AF with DVL0_BR showed a much weaker band, and the DVL0_CF with DVL0_DR did not show at all. We gel extracted MF3,4 and SJ4. Using the gel extraction protocol. We then quantified the amount of DNA we had using NanoDrop DNA quantification protocol andset up a restriction digest (SpeI, BSA, Buffer 4)for MF3,4 and SJ4. following the Restriction digest protocol

  • We did PCR clean up of MF3,4 and SJ4 and We quantified the product of MF3,4 and SJ4 PCR clean up using NanoDrop

  • For the amplification that didnìt work, we  performed gradient PCR  of SJ3 and MF3 in order to set the best parameters for the amplification (62-69 with interval of 1 degree C). We later found out, that our step 1 was set at 62C instead of 95C, which could have affected denaturation of the DNA template; although the SJ5-12 was amplified while the MF5-12 did not. We are unsure to the cause. The results were inconclusive compared to the Gel made previously.We ran another PCR to verify results.
  • We were given new primers to make stock and working solutions from. In the process we realized that we used DVL1_ER instead of DVL0_ER in SJ4, thus all SJ4 products were discarded and data obsolete. We remade the DVL1_ER stock solution by adding additional EB buffer till the right concentration has been reached. We then proceeded to make stock and working solutions for: DVL0_ER, DVL1_AF, DVL1_ER, DVL1_FF, DVL1_FR, DVL1_GF, DVL1_GR and  DVL1_HR.  Then we paired AF-ER, FF-GR, EF-FR, GF-HR to amplify the template DNA using PCR. We made the gel from the previously mentioned PCR of AF-ER (MS4), FF-GR (MS5), EF-FR(MS6), GF-HR (MS7) and also 3 L0 (MF3=MS1, SJ3=MS2,  SJ4=MS3)
  • Alll the L0 failed and the L1 showed bands
  • We performed gel extraction on the 4 L1 primer based amplification. We performed    nanodrop quantification of the products of the gel extraction.

  • We performed restriction digest (SpeI, BSA, Buffer 4)of the products of the gel extraction.From the restriction digest of MS4-7 we performed PCR clean up.  We nano dropped the PCR clean up product.

  • We transformed iGEM plasmids with competent bacteriafrom stock, and plated them.  We grew them overnight in 37C incubator: pSB1A3 plate 1 well 1G  (1A3), pSB1AT3 plate 1 well 13A (1AT3), pSB1C3 plate 1 well 3A (1C3), pSB1K3 plate 1 well 5A (1K3). We picked colonies from the plates that were stored in the incubator and allowed the picked colonies to be incubated in a 37C shaker.   We performed miniprep on 3 of the 4 overnight cultures(1k3 was not used due to minimal growth while 1A3, 1AT3 and 1C3 were able to grow sufficiently). We performed nanodrop quantification on the products of the miniprep and then performed restriction digest (SpeI, BSA, Buffer 4)of the products of the miniprep.
  •   We made a second generation of culture of the plasmid carrying bacteria by injecting 20 uL of the original culture into 5 mL of fresh LB broth with the appropriate antibiotics. Using the generation 2 culture of the bacteria with the 1K3 plasmid, we mini prepped it. We nanodrop quantified the mini prepped material. We then ran restriction digest(SpeI, BSA, Buffer 4) of the mini prepped sample.

  • We streaked plates from the overnight cultures of transformed bacteria (psB1A3, pSB1AT3, pSB1C3, pSB 1k3) and placed them into the 37C incubator.
  • We prepared a presentation of our project for Wellesley college, whom we will be collaborating with during the summer :)
  • We had a meeting with professor Doug and other undergrads from CIDAR lab.

June

Week 2

  • Attended meeting with Wellesley team. Collaboration has started!

  • We performed PCR amplification (20 μL reactions) with new sets of L0 primers: DVL0_EF with DVL0_BR (MS8), DVL0_FF with DVL0_BR (MS9), DVL0_GF with DVL0_BR (MS10), DVL0_DF with DVL0_FR (MS11), DVL0_DF with DVL0_GR (MS12) and DVL0_DF with DVL0_HR (MS13).   We then performed gel electrophoresis of MS8-13, all were successful.

  • We performed Gel extraction and nanodropped the samples.
  • Ran 50 μL PCR reactions of MS8.1-13.1, the same samples as MS8-3, in order to have enough DNA for restriction digest. We performed Gel Electrophoresis of the PCR samples and we performed Gel Extraction. Then, we nanodropped the samples.
  •   

  • We performed Restriction digest with the samples MS9.1 and MS 12.1 that had enough DNA concentration.  We PCR clean up-ed MS9.1 and 12.1
  • We performed a new PCR in triplicate for the samples MS8.1, 10.1, 11.1 and 13.1 to achive a higher concentration of DNA. We ran gel of MS8.1, 10.1, 13.1,11.1 to amplify more DNA template to achieve sufficient DNA concentration upon gel extraction

  •  

      

  • We performed ligation of the successful amplified samples of MS4-7 and MF4: MS4-7 with backbone of 1AT3, MS4-7 with backbone of 1A3 and MF4 with backbone of 1K3
  • Ran MgCl2 gradient of MF3 PCR to troubleshoot, along with DMSO separately.     
  • We transformed the ligations:MS4-7 with backbone of 1AT3, MS4-7 with backbone of 1A3, MF4 with backbone of 1K3 with competent bacterial cells. We spread plated them with 20 μL of a 40 mg/mL X-Gal solution and 8 μL of a 0.5 IPTG solution for blue-white screening.

June

Week 3

  • We found out that MS8-13 are all wrong due to primer dimer.  We redid the PCR of all level 0 primers that failed: L0AB (FJ1), L0EB (FJ2), L0FB (FJ3), L0GB (FJ4), L0DF (FJ5), L0DG (FJ6),L0DH (FJ7), L0DE (FJ8), L0CD (FJ9). Instead of running a gel after the PCR, PCR clean up was performed. The product of the clean up was then nanodropped.

  •  

  • Then the PCR clean up samples of FJ1-9 underwent restriction digest. We ran gel of digest, bands came out too weak, but all present.

  •  

  • Redid digest with higher amount of DNA. New gel is much more clear

  •  

  • We perfomed gel extraction and nanodropped gel extraction product.

  •  

  • Performed PCR clean up on RD of 1A3, 1AT3, 1C3, 1K3 transformed at week1 and nanodropped

     

     


  • Ligated 1K3 with pSMJSAF from samples of FJ1-9. Transformed the ligations on to plates.  The plates did not yield positives for the transformation.

  • RD the backbones in two sets, one set with just SpeI other with both SpeI and EcoRI.  Gel of the RD showed that there were unexpected bands when cut with both enzymes, something not shown on the registry experience pages for the backbones.

  •  

  • Plated bacteria transformed with the backbones. Picked colonies from the plates. Miniprepped and nanodropped the cultures with the the backbone

  •  

  • Made glycerol stocks of 1AT3, 1A3, 1C3, 1K3 both for -20 and -80 celsius

  • We prepared plate media of Kan, Amp and CAM


June

Week 4

    We designed primers and gene synthesis template.

  • We worked on Safety Answers for our Wiki.

  • We attended an Eugene Tutorial given by Ernst, the Pos-Doc responsible for Eugene in CIDAR Lab.

  • We worked on Human Practices project.

  • We met the Wellesley and MIT iGEM teams for a Physics lecture in MIT given by Walter Levine, had lunch together and visited the MIT iGEM team lab :)


July

Week 1 - Happy July 4th!

  • We transformed plasmids containing the genes, promoters and terminator to be used as templates for the primers that we had designed. The plasmids come from the iGEM kit plates.

    • we used bioline cells but didn’t follow the protocols because the cells were more competent so didn’t need to go through heat shock.
    • cells sat on bench over the weekend. Colonies will be picked next week!
  • We also autoclaved Broth, Media and DI water to have enough plates for our next round of transformations.
  • We used to Clotho to input the primers that we had designed into a database.
    • in doing so, we learned how to use Spreadit Features, Spreadit Oligos, Registry Importer, Collection Viewer and Sequence Viewer.
  • We are still waiting for our primers to continue wet lab work.

July

Week 2

    • We transformed the following parts from the iGEM plates into bioline cells : E1010, C0051, C0040, B0015, I13458, E0030, E0040, C0012, C0071, R0010, R0063, R0079, I13453, C0079, C0080, R0040, R0051, R0062, R0071, C0062.  Cultures from transformation were made and then a miniprep was performed on all of them. We ran a gel to confirm the plasmid presence and performed nanodrop to measure DNA concentration. After that, glycerol stocks were made for all of them.
    •  

       

    • We created working and stock solutions for the new primers that arrived to use at PCR. We performed PCR using the transformed parts as templates and the primers we designed in order to add moclo fusion sites to them. The PCR conditions were set according to the table below.
    •  



    • We confirmed the PCR reactions by running 5μL agarose gels. For samples bigger than 300bp we ran 1% gel, for samples smaller than that we ran 2% gels.



  • We performed PCR Clean up in the samples: C0051, C0040, C0062, I13458, R0063AB, R0063EB, R0063FB, R0063GB, R0010AB, E1010, E3030, C0012, C0071, C0080, B0015DE, B0015DF, B0015DG, B0015DH, E0040, C0079, pSB1C3, pSB1k3. Then, we nanodropped them.

July

Week 3

  • We performed restriction digest of the samples with SpeI and NEB buffer 4 for 1 hour. Then, we performed PCR clean up of the RD samples and measured the DNA concentration by nanodrop.
  • We did ligation of pSB1C3 and pSB1k3, in order to circularize the plasmid that we amplified in order to remove RFP.Then, we transformed the ligation product using bioline cells and spread plate them.  The 1C3 yielded colonies but the 1K3 didn’t. We picked colonies of 1C3 for overnight culture.
  • We performed PCR on pSB1A3, R0010(EB, FB, GB) and R0079 (AB, EB, FB, GB) with phusion from NEB to trouble shoot. For PCR we extended 1A3 extension time, while lowering annealing temperature for all samples. We run a gel to check the PCR product. For 1A3, we ran a 1% gel and for the other samples we ran a 2% gel. Again the amplifications  did not work and we decided to double check the primers we designed. We realized that the primers R0010_For_E, R0010_For_F, R0010_For_G,  R0079_For_A, R0079_For_E, R0079_For_F an R0079_For_G had problems on their design and couldn`t anneal properly to the template. We are ordering new correct primers and troubleshooting the amplification of pSB1A3.

  • We performed Miniprep in sample pSB1C3 and digested it with SpeI and buffer N4. For the sample pSB1k3 we performed a new ligation, transformed the ligation product using bioline cell and spread plate it.  We ran a 1% gel to check the digestion product of pSB1C3 and proceeded to PCR clean up of the sample and DNA quantification.


  • We started building our level 0 destination vectors :) We ligated our backbone pSB1C3 with the following pcr amplified products: DVL0_GF_BR, DVL0_DF_FR, DVL0_DF_GR, DVL0_CF_DR and DVL0_BF_CR. We transformed them using Bioline competent cells, and plated them with X-gal and IPTG for blue-white screening.
  • We updated our Clotho experience section, check it out!

July

Week 4

  • We made cultures of E1010 and pSB1C3, pSB1k3 did not work.
  • We transformed ligations of DVL0_GF_BR, DVL0_DF_FR, DVL0_DF_GR, DVL0_CF_DR and DVL0_BF_CR to the pSB1C3 backbone following the bioline cell protocol for ligations because the last set of transformations didn`t work without heat shock. The cells grew but they were not blue. We thought that it might be related to the fact that we did not leave enough time for IPTG and X-Gal be absorbed into the plate. We made a new set of ligations and repeated the transformations, this time placing the plates with IPTG and X-Gal into the incubator for 30 min before plating the cells. And it finally worked! All of them had blue colonies, except for DVL0_FF_BR.
  • In order to perform new ligations with the Level 0 inserts, we repeated the protocol from last week to obtain more backbone of pSB1C3.
  • Also, we worked on the pSB1k3 backbone. We ran the PCR using the conditions we previously set. We performed PCR clean up AND DNA quantification and ran a gel to confirm the amplification.
GEL + NANODROP
  • We performed a single restriction digest (SpeI) of the sample, DNA quantified it and ligated to itself in order to get circularized backbone.
NANODROP
  • We transformed the ligation product following the Alpha Select cells protocol. The colonies grew! We picked colonies and incubated them overnight. We performed Miniprep and DNA quantification.
NANODROP
  • We ran a single restriction digest (SpeI) and a double restriction digest (SpeI and EcoRI) of the pSB1k3 sample. We ran gel of the double cut and the uncut to confirm the circularized backbone.
gel
  • Because the transformations of pSB1C3 yielded low count of blue colonies we decided to dephosphorylate the pSB1K3 backbone before ligation in order to decrease the likelihood of the backbone re-ligating to itself.  We, then performed PCR clean up and Dna quantification.
nanodrop
  • We, then, ligated the pSB1K3 backbone to the DVL1_ AF_ER, DVL1_ FF_GR, DVL1_ EF_FR and DVL1_ GF_HR inserts we had amplified before. We transformed using the same method as with the Level 0 transformations.

July

Week 5

  • >Ran restriction digest on miniprep samples from transformations of the level 1s from week 4.
  • Ran a gel to confirm if the level 0 cells transformed with lacz
gel pic
  • streaked plates from liquid cultures of the level 0 transformed cells
  • Ran a restriction digest of the psb1k3 backbone with SpeI
  • We ran gel of the RD product with the uncut psB1K3 (gel pic not available)
  • Ran PCR of J23100 to J23109 with circular pSB1C3 template.
  • Ran gel to confirm, but none showed correct bands.
gel pic,
  • Gel extracted the RD product of the pSB1K3 with concentration of 5 ng/uL
  • Ran a dephosphorylation of pSB1K3
  • PCR clean up on the dephosphorylated pSB1K3, with concentration as 5.2 ng/uL
  • We ligated FF_GR level 0 to 1C3 and ligated all the level 1 to 1K3 regular and another set of level 1 to 1K3 dephosphorylated
  • We transformed the the ligations into bioline and Eaton cells
  • We sent plasmid preps of all the level 0 transformed cells for sequencing, only 2 (DFGR and BFGR) worked, but both in wrong orientation
  • We ran PCR of J23105-J3108 with cut 1K3 hoping that would improve the result
  • Ran a gel to confirm, again no success
gel pic
  • The transformations of the level 1 parts are successful and colonies were picked
  • To resequence the level 0 parts, we learned in depth on how to streak plates and restreaked plates of the level 0 cells.
  • We performed PCR on J23112 with cut 1K3, uncut 1K3 and also extended melting time to 30 seconds from 15 seconds and also decreased the melting temperature 4 degrees celsius below the indicated temperature on the IDT sheet.
  • we miniprepped all level 0 and level1 destination vectors. and performed nanodrops of them. Couldn’t do RD because no tips ;(
nanodrop insert.
  • we made glycerol stocks of these destination vectors too.

August

Week 1

  • We ran a restriction digest of all the DVL1 and DVL0 miniprep samples (42 in total!!) cut with BsaI, and ran them  in gel with their uncut counterparts to check sizes before sending them for sequencing.
  • We proceeded our troubleshooting PCR of the J and B series using sewing/ligation PCR, a 10 cycle PCR reaction amplifying pSB1C3  and transforming it directly. For more details, check the Methodology section for PCR strategies and troubleshooting. In the beginning, the ligation PCR didn`t work, so we tried a gradient temperature. It showed faint bands but enough to move on and improve it. GEL page 84 monique notebook
  • We realized that non specific bands may be due to excess of DNA template. We ran the PCR again with the decreased amount of template and they worked. Finally :) :) Currently we have J23100-J23112 and J23110-J23118BA-BE,  except for J23113 BA. The gel pictures for the amplification can be seen below.

August

Week 2

  • For the DVs we submitted for sequencing last week, we checked the sequences by blasting them against the expected fragment. All of them worked, except for the DVL0s: CFDR, DFER, FFBR and GFBR that showed the wrong MoClo sites. We had to begin again the process of making these DVL0s :we redid the PCR for them, performed a restriction digest with SpeI, ran a gel,  gel extracted them and quantified them.
NANODROP PAGE 91 MONIQUE NOTEBOOK.
  • We ligated those parts to 1C3 backbone and transformed them. Unfortunately, the cells we used the first time were not so competent anymore and the transformations didn't work. So, we repeated the transformations with Bioline cells and let them growing on the bench over the weekend.
  • After using pSB1C3 for the ligations, we were running short of the backbone to use as template for ligation PCR. So we streaked plates from glycerol stocks, pick colonies and ran miniprep on the other day. Then, we ran a RD, pcr clean up and quantified it.
DN QUANTIFICATION PG 95 MONIQUE NOTEBOOK
  • We did our first set of MoClo reactions in order to make L0 MoClo parts.
TABLE FOR MoClo.
  • We transformed them and let them growing on the bench over the weekend to perform blue-white screening next week.

  • Also, we started working on our DVL2s. We are using amp as our resistance backbone, so we decided to get it from one of miniprep samples we had from C0040 that has an amp backbone. We ran RD of C0040 with XbaI and SpeI to get C0040 out, we ran a gel to confirm it and gel extracted it.
GEL PAGE 97 NOTEBOOK MONIQUE.
  • Then, we performed PCR using pSB1A2 as template and BBpls_For and BBpls_Rev as primers.  We ran a gel to confirm it and gel extracted it.
GEL PAGE 100 notebook MONIQUE.
  • Then, we ran Restriction digest with SpeI, PCR clean up and its concentration was 3.2 ng/uL. DVL2 backbone is ready to be ligated with amplified LacZ having the MoClo sites :)

August

Week 3

  • We kept working on L2 DVs. We performed a ligation of backbone pSB1A2 to itself  and transformed the circularized backbone. We picked colonies the following and set overnight cultures of the plasmid. Then, we performed minipreps and got 28 ng/uL DNA concentration. Also, we amplified LacZ with the following primers: DVL0_For_A and DVL0_Rev_F, DVL0_For_A and DVL0_Rev_G, DVL0_For_A and DVL0_Rev_H, DVL0_For_E and DVL0_Rev_G,  DVL0_For_E and DVL0_Rev, H and DVL0_For_F and DVL0_Rev_H.   We digested both the LacZ amplified fragments and the pSB1A2 backbone with SpeI cut. We ran the cut sample son a gel to confirm sizes.
GEL picture page 111 NOTEBOOK Monique
  • We performed gel extraction and then, quantified the samples.
nanodrop table page 122 NOTEBOOK Monique
  • We performed ligation of the DVL2_AF_BR, DVL2_AF_GR, DVL2_AF_HR, DVL2_EF_GR and DVL2_EF_HR with pSB1A2 and transformed them with bioline gold cells for blue-white screening. Unfortunately, colonies grew but none of them turned blue.
  • We dephosphorylated the backbone pSB1A2 to prevent recircularization when ligating it to amplified LacZ. We performed new ligation and transformed them. Again, colonies grew but none of them turned blue. We are troubleshooting the experiment now.
  • The MoClo L0 parts transformations worked nicely, plates showed more white colonies then blue, indicating that LacZ was cut out of the backbone and the Moclo parts took place. We picked white colonies and let them grow overnight. We performed miniprep in all of them and Dna quantified them.
nanodrop table page 106 Notebook Monique
  • In order to check the MoClo parts before send it for sequencing, we ran BsaI digests and ran the digest product on a gel.
gel page 107, 108 and 109 notebook Monique

August

Week 4

  • We continued the ligation PCRs to add MoClo sites to J series promoters, RBSs and genes. We tried to scale down the first set of reactions, because we were only using 2 uL of the reaction product  as template for third set of pcr reactions. It didn`t work, however. The gel showed really faint bands and it was impossible to gel extract them.
GEL PICTURE PG117 NOTEBOOK MONIQUE
  • We performed new 50 ul PCRs for J23103-J23106 BA-BE.
GEL PICTURE PG 119 NOTEBOOK MONIQUE
  • Also, we ran regular PCRs to amplify the genes with correct primers that arrived recently: R0010EB, R0010FB, R0010GB, R0079AB, R0079EB, R0079FB, R0079GB and I1453FB.
GEL picture pg 118 NOtebook MOnique
  • We, then, gel extracted the bands and quantified the DNA from both gels.
table pg 120 notebook monique
  • Also, we performed ligation PCR for B0030-34 BC.
gel page 123 notebook monique
  • Then, we gel extracted and quantified it.
table 124 notebook Monique
  • After using so much pSB1C3 as template for PCR we ran out of it and had to streak plates from the Glycerol stocks, run minipreps, digest, clean up and finally continue with our PCRs  :) We ran ligation PCR of J23107-09 AB-EB, J23119AB-EB and J23113AB, J23103AB.