Team:UNIPV-Pavia/Notebook/Week3
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!|[[Team:UNIPV-Pavia/Notebook/Week6|Week 6]] | !|[[Team:UNIPV-Pavia/Notebook/Week6|Week 6]] | ||
!|[[Team:UNIPV-Pavia/Notebook/Week7|Week 7]] | !|[[Team:UNIPV-Pavia/Notebook/Week7|Week 7]] | ||
+ | |- | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week8|Week 8]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week9|Week 9]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week10|Week 10]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week11|Week 11]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week12|Week 12]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week13|Week 13]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week14|Week 14]] | ||
+ | |- | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week15|Week 15]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week16|Week 16]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week17|Week 17]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week18|Week 18]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week19|Week 19]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week20|Week 20]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week21|Week 21]] | ||
+ | |- | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week22|Week 22]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week23|Week 23]] | ||
+ | !|[[Team:UNIPV-Pavia/Notebook/Week24|Week 24]] | ||
|} | |} | ||
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*We picked up one colony from BBa_C0061, BBa_R0051, BBa_I14032, I15008 and I15010 plates to grow 5 ml cultures of transformed bacteria overnight. | *We picked up one colony from BBa_C0061, BBa_R0051, BBa_I14032, I15008 and I15010 plates to grow 5 ml cultures of transformed bacteria overnight. | ||
- | *We also infected 5 ml of LB + Amp with 15 µl of BBa_B0030 glycerol stock. We incubated the 5 ml | + | *We also infected 5 ml of LB + Amp with 15 µl of BBa_B0030 glycerol stock. We incubated the 5 ml culture overnight at 37°C. |
*We received QIAGEN QIAprep Spin Miniprep Kit!!! We will inaugurate it tomorrow on these 5 ml cultures;) | *We received QIAGEN QIAprep Spin Miniprep Kit!!! We will inaugurate it tomorrow on these 5 ml cultures;) | ||
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'''06/05/08''' | '''06/05/08''' | ||
<br> | <br> | ||
- | *We received Euroclone | + | *We received Euroclone Antarctic Phosphatase: we are going to use it in the afternoon before ligation reaction. |
*We prepared 6 glycerol stocks taking 800 µl from 5 ml cultures containing: | *We prepared 6 glycerol stocks taking 800 µl from 5 ml cultures containing: | ||
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*We picked up one colony from BBa_C0161, BBa_C0179 and BBa_C0079 plates to grow 5 ml cultures of transformed bacteria overnight. We did the same thing for BBa_I14032 6/3/08 plate; we didn't use glycerol stock for BBa_I14032 because we thought there was something wrong with the colony we picked on 6/4/08. | *We picked up one colony from BBa_C0161, BBa_C0179 and BBa_C0079 plates to grow 5 ml cultures of transformed bacteria overnight. We did the same thing for BBa_I14032 6/3/08 plate; we didn't use glycerol stock for BBa_I14032 because we thought there was something wrong with the colony we picked on 6/4/08. | ||
- | * | + | *Antarctic Phosphatase for BBa_E0240 (E-X), BBa_R0051 (S-P), BBa_B0030 (S-P), BBa_B0030 (E-X). |
- | *We performed ligation reaction for '''(vectors are in bold type)''': | + | *We calculated the amount of vector/insert for ligation reaction to have a molar ratio of 2:1 (insert:vector). |
+ | |||
+ | *We performed ligation reaction (30 µl final volume) for '''(vectors are in bold type)''': | ||
#BBa_J23100-'''BBa_E0240''' (Pcon(E-S)-'''assGFP(E-X)''') | #BBa_J23100-'''BBa_E0240''' (Pcon(E-S)-'''assGFP(E-X)''') | ||
#BBa_J23100-'''BBa_B0030''' (Pcon(E-S)-'''RBS(E-X)''') | #BBa_J23100-'''BBa_B0030''' (Pcon(E-S)-'''RBS(E-X)''') | ||
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<td align="center"> | <td align="center"> | ||
{| | {| | ||
- | |[[Image: | + | |[[Image:pv_nanodrop_9ml_placiq.jpg|thumb|300px|right|NanoDrop output for BBa_I14032 9 ml miniprep]] |
|} | |} | ||
</td> | </td> | ||
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**Our hypothesis was that we had to focus on plasmid digestion process: we approximately checked the length of every opened plasmid/excided fragment we wanted to insulate on gel and they were right. | **Our hypothesis was that we had to focus on plasmid digestion process: we approximately checked the length of every opened plasmid/excided fragment we wanted to insulate on gel and they were right. | ||
**We were sure that restriction enzymes cut both the restriction sites (E-S or X-P) for excided fragments, but we could not be so sure whether opened plasmids had been cut (E-X or S-P) in both restriction sites or only in one site. | **We were sure that restriction enzymes cut both the restriction sites (E-S or X-P) for excided fragments, but we could not be so sure whether opened plasmids had been cut (E-X or S-P) in both restriction sites or only in one site. | ||
- | **In | + | **In previous digestion protocols to open plasmids, we performed 2 cutting cycles: one for the first enzyme (1 hour and 30 min) and one for the second enzyme (1 hour and 30 min). |
- | **We supposed there was something wrong with digestion protocol | + | **We supposed there was something wrong with that digestion protocol, so we decided to perform plasmid digestion again for our 4 plasmids to open, following the digestion protocol (read Protocols section for details). |
**We also noticed that digestion protocol for excided fragments worked very well for BBa_B0030, whose fragment length is 15 bp, so we hoped that this protocol might actually work to open plasmids. | **We also noticed that digestion protocol for excided fragments worked very well for BBa_B0030, whose fragment length is 15 bp, so we hoped that this protocol might actually work to open plasmids. | ||
- | **In addition, we decided to check if our only working plate was a false positive: next week we will perform PCR/electrophoresis to check insert length. | + | **In addition, we decided to check if our only working plate was a false positive: next week we will perform PCR/electrophoresis to check for contaminating plasmids (we could not check immediately for insert length by electrophoresis because BBa_J23100 and BBa_B0030 are small parts). |
+ | |||
+ | *Wiki updating. | ||
<br><br> | <br><br> | ||
'''06/08/08''' | '''06/08/08''' | ||
<br> | <br> | ||
- | *We picked up one colony from BBa_J23100-BBa_B0030 plate to grow a 9 ml culture of transformed bacteria overnight. | + | *We picked up one colony from BBa_J23100-'''BBa_B0030''' plate to grow a 9 ml culture of transformed bacteria overnight. |
+ | |||
+ | *We also infected 9 ml of LB + Amp with 15 µl of BBa_B0030, BBa_B0030 (another time), BBa_R0051, BBa_E0240 glycerol stocks. We incubated 9 ml cultures overnight at 37°C. | ||
+ | |||
+ | *Wiki updating. |
Latest revision as of 21:25, 26 October 2008
Home | The Team | The Project | Biological Safety | Parts Submitted to the Registry |
---|---|---|---|---|
Dry Lab | Wet Lab | Modeling | Protocols | Activity Notebook |
Notebook
Week 1 | Week 2 | Week 3 | Week 4 | Week 5 | Week 6 | Week 7 |
---|---|---|---|---|---|---|
Week 8 | Week 9 | Week 10 | Week 11 | Week 12 | Week 13 | Week 14 |
Week 15 | Week 16 | Week 17 | Week 18 | Week 19 | Week 20 | Week 21 |
Week 22 | Week 23 | Week 24 |
Week 3: 06/03/08 - 06/08/08
06/03/08
- We transformed 60 µl of TOP10 with 2 µl of the 6 parts (DNA + glycerol) we received from IGEM HQ:
BBa_C0179 | BBa_C0161 | BBa_R0051 | BBa_I14032 |
BBa_I15008 | BBa_I15010 |
- NOTES: We noticed that IGEM 2007 teams which used luxI or lasR parts choosed BBa_C0061 instead of BBa_C0161 (for luxI) and BBa_C0079 instead of BBa_C0179 (for lasR). So, we decided in addition to amplify BBa_C0061 and BBa_C0079; we shall see later which one to choose for our project between the two luxI and the two lasR.
- So, we cut paper spots for BBa_C0061 and BBa_C0079 and resuspended them in 10 µl of warmed TE buffer.
- We transformed these 2 parts using 4 µl of DNA in TE.
- We plated transformed bacteria and incubated them at 37°C overnight.
06/04/08
- After overnight incubation, the following 5 plates showed colonies:
|
|
|
- while the following 3 plates did not:
BBa_C0079 | BBa_C0179 |
BBa_C0161 |
- We repeated the transformation for BBa_C0079, BBa_C0179 and C0161. We used 6 µl of DNA in TE for BBa_C0079, while we used 3 µl of DNA + glycerol for BBa_C0179 and BBa_C0161.
- We plated transformed bacteria and incubated them at 37°C overnight.
- While we were preparing our 5 ml cultures for the 5 working plates, we noticed that LB + Amp was contaminated! We decided to prepare a big quantity of LB + Amp and also of LB + Kan: we prepared 0.5 l LB + Amp and 0.5 l LB + Kan for liquid cultures; 0.5 l LB + Amp and 0.5 l LB + Kan for plates.
- We picked up one colony from BBa_C0061, BBa_R0051, BBa_I14032, I15008 and I15010 plates to grow 5 ml cultures of transformed bacteria overnight.
- We also infected 5 ml of LB + Amp with 15 µl of BBa_B0030 glycerol stock. We incubated the 5 ml culture overnight at 37°C.
- We received QIAGEN QIAprep Spin Miniprep Kit!!! We will inaugurate it tomorrow on these 5 ml cultures;)
06/05/08
- We received Euroclone Antarctic Phosphatase: we are going to use it in the afternoon before ligation reaction.
- We prepared 6 glycerol stocks taking 800 µl from 5 ml cultures containing:
BBa_R0051 | BBa_I15008 | BBa_I15010 | BBa_I14032 |
BBa_C0061 | BBa_B0030 |
- We performed miniprep for these 6 parts with our new fantastic kit;) Plasmid quantification confirmed a higher yield than our previous QIAGEN kit.
- We performed plasmid digestion for these parts (20 of 30 µl).
- We had to insulate excided fragments for:
BBa_I15008 (X-P) | BBa_I15010 (X-P) | BBa_I14032 (X-P) | BBa_C0061 (X-P) |
BBa_B0030 (X-P) |
- While we had to insulate opened plasmids for:
BBa_R0051 (S-P) |
- Due to the different dimension of the DNA we had to insulate, we ran 3 different gels:
- one for BBa_R0051 (S-P)
- one for BBa_I14032 (X-P) and BBa_B0030 (X-P)
- one for BBa_C0061 (X-P), BBa_I15008 (X-P) and BBa_I15010 (X-P).
- We could see and cut all the bands we wanted, except for BBa_I14032, for which we couldn't see any band.
- We performed gel extraction for:
BBa_R0051 (S-P) | BBa_B0030 (X-P) | BBa_C0061 (X-P) | BBa_I15008 (X-P) |
BBa_I15010 (X-P) |
- All the 3 overnight plates worked (low yield for all).
- We picked up one colony from BBa_C0161, BBa_C0179 and BBa_C0079 plates to grow 5 ml cultures of transformed bacteria overnight. We did the same thing for BBa_I14032 6/3/08 plate; we didn't use glycerol stock for BBa_I14032 because we thought there was something wrong with the colony we picked on 6/4/08.
- Antarctic Phosphatase for BBa_E0240 (E-X), BBa_R0051 (S-P), BBa_B0030 (S-P), BBa_B0030 (E-X).
- We calculated the amount of vector/insert for ligation reaction to have a molar ratio of 2:1 (insert:vector).
- We performed ligation reaction (30 µl final volume) for (vectors are in bold type):
- BBa_J23100-BBa_E0240 (Pcon(E-S)-assGFP(E-X))
- BBa_J23100-BBa_B0030 (Pcon(E-S)-RBS(E-X))
- BBa_R0051-BBa_B0030 (Plam(S-P)-RBS(X-P))
- BBa_B0030-BBa_E0040 (RBS(S-P)-GFP(X-P))
- BBa_B0030-BBa_C0051 (RBS(S-P)-cI(X-P))
- BBa_B0030-BBa_E1010 (RBS(S-P)-RFP(X-P))
- BBa_B0030-BBa_C0061 (RBS(S-P)-luxI_LVA(X-P))
- BBa_B0030-BBa_C0078 (RBS(S-P)-lasI(X-P))
- We incubated ligation overnight at 16°C.
06/06/08
- We prepared 4 glycerol stocks taking 800 µl from 5 ml cultures containing:
BBa_C0161 | BBa_C0179 | BBa_C0079 | BBa_I14032 |
- Miniprep for BBa_C0161, BBa_C0179, BBa_C0079 and BBa_I14032.
|
|
- We decided to sequence BBa_I14032 to check if the sequence is correct. Unfortunately we had not enough plasmid and so we picked another colony from 6/3/08 plate, infected 9 ml LB + Kan and incubated it overnight at 37°C. We decided to use 9 ml instead of 5 ml in order to verify if we could increment our yield without saturating the QIAGEN spin column and without performing a midiprep.
- We transformed the whole ligation volume (30 µl) for all the 8 overnight ligations.
- We plated transformed bacteria and incubated at 37°C overnight.
06/07/08
|
|
- Only BBa_J23100-BBa_B0030 (Pcon(E-S)-RBS(E-X)) plate showed colonies. We put it at 4°C.
- NOTES: obviously we were not happy with this result. So, how could we do to debug this situation?
- Our hypothesis was that we had to focus on plasmid digestion process: we approximately checked the length of every opened plasmid/excided fragment we wanted to insulate on gel and they were right.
- We were sure that restriction enzymes cut both the restriction sites (E-S or X-P) for excided fragments, but we could not be so sure whether opened plasmids had been cut (E-X or S-P) in both restriction sites or only in one site.
- In previous digestion protocols to open plasmids, we performed 2 cutting cycles: one for the first enzyme (1 hour and 30 min) and one for the second enzyme (1 hour and 30 min).
- We supposed there was something wrong with that digestion protocol, so we decided to perform plasmid digestion again for our 4 plasmids to open, following the digestion protocol (read Protocols section for details).
- We also noticed that digestion protocol for excided fragments worked very well for BBa_B0030, whose fragment length is 15 bp, so we hoped that this protocol might actually work to open plasmids.
- In addition, we decided to check if our only working plate was a false positive: next week we will perform PCR/electrophoresis to check for contaminating plasmids (we could not check immediately for insert length by electrophoresis because BBa_J23100 and BBa_B0030 are small parts).
- Wiki updating.
06/08/08
- We picked up one colony from BBa_J23100-BBa_B0030 plate to grow a 9 ml culture of transformed bacteria overnight.
- We also infected 9 ml of LB + Amp with 15 µl of BBa_B0030, BBa_B0030 (another time), BBa_R0051, BBa_E0240 glycerol stocks. We incubated 9 ml cultures overnight at 37°C.
- Wiki updating.