Team:SDU-Denmark/Diary

From 2009.igem.org

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m (Day Two - DNA creation and purification.)
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=Week One=
=Week One=
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Dear Diary
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''''Dear Diary''''
This week we started lab work. We started by growing some Colis, making some amp-plates, making RIP DNA, making competent cells and trying to transform biobricks.
This week we started lab work. We started by growing some Colis, making some amp-plates, making RIP DNA, making competent cells and trying to transform biobricks.
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Using the competent cells from earlier and this [[Team:SDU-Denmark/Protocols/Transformation|protocol]] we attempted to transform our Colis with biobrick plasmids B0015, B0034, R0011, J23100, pSB1A3 (containing p1010) and 1 negative control (without plasmid). 1 hour incubation time on 37 degrees C.
Using the competent cells from earlier and this [[Team:SDU-Denmark/Protocols/Transformation|protocol]] we attempted to transform our Colis with biobrick plasmids B0015, B0034, R0011, J23100, pSB1A3 (containing p1010) and 1 negative control (without plasmid). 1 hour incubation time on 37 degrees C.
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=Week 2=
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''Dear Diary''
 +
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This week we started working on the Wiki and continued our labwork. In the lab we had to start our transformation over, since we didn't have any usable growth in last weeks transformed cells. In the second round of transformation we added a second protocol ([[Team:SDU-Denmark/Protocols/Electroporation|electroporation]]) and made minor changes to the classic protocol.
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==Day one - Starting over.==
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'''Transformation control'''. Sadly, we observed no growth on most of the plates from our first transformation. Only the plates containing biobrick B0015 (the double terminator in plasmid pSB1AK3) showed clumpy growth [images], 3 out of 4 plates (both 5 μL and one 2 μL) showed growth. One possible explanation attributed these observations to an uneven distribution of ampicillin in the medium, most likely though is that our competent cells werent quite so competent. Nevertheless we needed to start over with the transformation.
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'''Amp preparation'''. We added 5 mL of diH2O to NEW powder ampicillin and vortexed to dissolve, creating an amp concentration of 100mg/mL.
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We transferred 1mL to each of three eppendorf-tubes.
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From the tubes we transferred 0,25 mL to ~500mL of LA medium, creating a ~1:2000 concentration gradient, with a medium concentration of amp = 50 μg/mL, to evenly distribute the amp in the medium it was shaken and rotated vigourosly.
 +
 +
Due to a mysterious lack of liquid in well 23L(B0015, double terminator) we decided to dilute all open wells (2M, 3K, 6G, 18C, 23L) with 2 μL of diH2O.
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'''Electroporation'''. We made 7 samples, 5 parts, one negative and one positive control. [[Team:SDU-Denmark/Protocols/Electroporation|protocol]]. We used 0,2 cm cuvettes. The tubes contained
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#3K
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#6G
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#2M
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#23L
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#18C
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#Positive control
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#Negative control.
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From the seven sampletubes we made 7 LA+AMP plates and 1 LA plate(for the negative control).

Revision as of 13:42, 27 July 2009


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Contents

Week One

'Dear Diary'

This week we started lab work. We started by growing some Colis, making some amp-plates, making RIP DNA, making competent cells and trying to transform biobricks.

Day One - Preparation.

On the first day we streaked a strain of E. Coli called Top10 onto 5 LA plates (LA = LB medium with Agarose, LB = Luria-Bertani broth [1]). The plates were incubated at 37 degrees C overnight. Streaking was done as shown on the picture [PICTURE FROM NOTEBOOK].

We also made LA plates containing ampicillin as our selection antibiotic. We decided to use an ampicillin plate-concentration of 50 μg/mL based on reported ampicillin resistance of our biobrick containing plasmids. We later found out that the plasmids provide sufficient ampicillin resistance for harsher selection with 100 μg/mL[#]. How to make 50 μg/mL plates.

Day Two - DNA creation and purification.

Today we started creating our RIP DNA. We had previously ordered primers with an overlap in order to make RIP DNA via PCR. In order to achieve a primer-stock concentration of 100 μM we added diH2O(de-ionized, autoclaved water) to our raw primers:

Name Added Water Description
Igem-1 187μL RIP with export sequence (sRIP)
Igem-2 200μL RIP with export sequence (sRIP)
Igem-3 301μL RIP
Igem-4 269μL RIP

Since we dont need all the DNA at once, we diluted the primer solutions to 20 μM, by adding 40 μL of diH2O to 10 μL of primer-stock.

We did PCR with our 20 μM solution of primer using this protocol, due to a shortage of Pfx-enzyme, we used Pfu enzyme instead and didn't add MgSO4 (which the Pfu-buffer already contains). We also elongated at 70 degrees C for 2 minutes. We made 4 tubes for both sRIP and RIP for extra safety.


Inspection of yesterdays platestreakings. We observed growth on all 5 LA plates. Tertiary growth on several plates. 1 plate has been streaked too deeply, it's hard to see colonies.

Post-PCR gel preparation. 4 μL of diH2O and 1μL of loading buffer (containing a colouring agent) was added to 5 μL of PCR product. Process was repeated for all 8 tubes. The solution was applied to a 1,5 % (mass/volume, 4,5g agarose in 300mL of diH2O) agarose gel og run for about 15 minutes, or until the bands reach halfway of the gel. Technically the solution is applied to the gel by inserting the tip of a pipette into the appropriate slot and releasing the material so that it stays in the slot, remember to apply a size-appropriate DNA ladder to a slot for size-determination of samples. [Gel-billede 1].

Tube-inoculation. We applied a colony from our LA-streakings to LB liquid medium and grew it overnight at 37 degress C and shaking. These cells are later made competent.

Gel purification of PCR product. Solution for gel-electroforesis was prepared as described earlier except, we now prepared 50 μL, by adding 5 μL of loading buffer to 45 μL of PCR-product. applying the solution to deeper, wider slots, run the gel as before, excise the bands, and weighing them.

Name: sRIP-1 sRIP-2 sRIP-3 sRIP-4 RIP-1 RIP-2 RIP-3 RIP-4
Weight 390mg 420mg 520mg 560mg 719mg 600mg 450mg 430mg

We now followed a purification protocol, complete with kit. To the eppendorf-tubes containing the excised bands we added 1 μL of capture buffer per mg gel, heated to 60 degrees C and vortexed until the bands had been dissolved. From the tubes we transferred 600 μL to microspin tubes (w/ filter) and centrifuged for 30 seconds at 14500 RPM to capture the DNA in the filter. Flowthrough was discarded. From here on, as protocol describes.

Day Three - Competence and transformation.

We started the day by making competent cells according to this protocol. We measured OD550 (optical density at 550nm wavelength) as:

Time #1 #2
09:00 0,036 0,040
10:15 0,08 0,115
10:45 0,167 0,253

We used 1mL pure LB medium as reference.

The PCR product we purified yesterday was tested in the same way as the product was before purification. [Gel-billede 2].

Using the competent cells from earlier and this protocol we attempted to transform our Colis with biobrick plasmids B0015, B0034, R0011, J23100, pSB1A3 (containing p1010) and 1 negative control (without plasmid). 1 hour incubation time on 37 degrees C.

Week 2

Dear Diary

This week we started working on the Wiki and continued our labwork. In the lab we had to start our transformation over, since we didn't have any usable growth in last weeks transformed cells. In the second round of transformation we added a second protocol (electroporation) and made minor changes to the classic protocol.

Day one - Starting over.

Transformation control. Sadly, we observed no growth on most of the plates from our first transformation. Only the plates containing biobrick B0015 (the double terminator in plasmid pSB1AK3) showed clumpy growth [images], 3 out of 4 plates (both 5 μL and one 2 μL) showed growth. One possible explanation attributed these observations to an uneven distribution of ampicillin in the medium, most likely though is that our competent cells werent quite so competent. Nevertheless we needed to start over with the transformation.

Amp preparation. We added 5 mL of diH2O to NEW powder ampicillin and vortexed to dissolve, creating an amp concentration of 100mg/mL. We transferred 1mL to each of three eppendorf-tubes. From the tubes we transferred 0,25 mL to ~500mL of LA medium, creating a ~1:2000 concentration gradient, with a medium concentration of amp = 50 μg/mL, to evenly distribute the amp in the medium it was shaken and rotated vigourosly.

Due to a mysterious lack of liquid in well 23L(B0015, double terminator) we decided to dilute all open wells (2M, 3K, 6G, 18C, 23L) with 2 μL of diH2O.

Electroporation. We made 7 samples, 5 parts, one negative and one positive control. protocol. We used 0,2 cm cuvettes. The tubes contained

  1. 3K
  2. 6G
  3. 2M
  4. 23L
  5. 18C
  6. Positive control
  7. Negative control.

From the seven sampletubes we made 7 LA+AMP plates and 1 LA plate(for the negative control).