Team:Imperial College/Protocols

From 2013.igem.org

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<h3>Cloning</h3>
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<b>Waste Growth Assay</b>  
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<h3>Waste Growth Assay</h3>  
O/N cultures of MG1655 transformed with (BBa_K639003) were diluted to OD 0.05 in either fresh LB or waste conditioned media and plated into 96 well plates (200ul/well). OD600 was read at the indicated time points and media only (LB) was taken away as background signal.  
O/N cultures of MG1655 transformed with (BBa_K639003) were diluted to OD 0.05 in either fresh LB or waste conditioned media and plated into 96 well plates (200ul/well). OD600 was read at the indicated time points and media only (LB) was taken away as background signal.  

Revision as of 00:15, 17 September 2013

NO

Contents

Materials

Waste Conditioned Media (WCM)

We added 1g [http://en.wikipedia.org/wiki/Refuse-derived_fuel SRF] (Solid Recovered Fuel) /50 mL LB and then autoclaved the mixture. Once autoclaved, large waste chunks were removed through filter sterilisation (0.2uM filters) before being used in growth assays as waste conditioned media (WCM).



Protocols and Assays

Cloning

PCR

We used Pfu Ultra polymerase for all reactions where we use the DNA for anything afterwards. Download the exact manual from here

We used MyTaq polymerase for colony PCR and checking plasmids. You can download the manual [http://www.bioline.com/documents/product_inserts/MyTaq%E2%84%A2%20DNA%20Polymerase.pdf#zoom=130 here].

Our super Thermal Cycler was provided by our generous sponsor, Eppendorf.

Running gels

We used SybrSafe to stain the DNA and imaged in a Transilluminator. We cut out bands under a bluebox.

Minipreps

We did minipreps from 4mL overnight cultures in LB, supplemented with antibiotics. Chlo: Amp: Kan: We used [http://www.qiagen.com/Products/Catalog/Sample-Technologies/DNA-Sample-Technologies/Plasmid-DNA/QIAprep-Spin-Miniprep-Kit Quiagen Miniprep kit].

We got a sweet tabletop centrifuge from dear Eppendorf company which served us really well.

Digests and Ligations

For restriction digests, we used NEB enzymes and used the companys protocols accordingly. For ligations, we used T4 ligase. We treated backbones with alkaline phosphatase before ligations and we have used Dpn1 treatment sometimes to degrade the original plasmid.

Sequencing

We used VF", VR, G1004 and G1005 primers in order to verify the sequence of most of the biobrick parts. We also designed internal sequencing primers to verify the reads in long parts, such as phaCAB.

[http://parts.igem.org/Part:BBa_G00100 VF2 (BBa_G00100)] tgccacctgacgtctaagaa Tm=62 [http://parts.igem.org/Part:BBa_G00100 VR (BBa_G00101)] attaccgcctttgagtgagc Tm=60

[http://parts.igem.org/Part:BBa_G1004 BBa_G1004] (=prefix) gtttcttcgaattcgcggccgcttctag Tm=63 [http://parts.igem.org/Part:BBa_G1004 BBa_G1005] (=revcompl sufix) gtttcttcctgcagcggccgctactagta Tm=64

Transformation

We transformed our plasmids finally into MG1655.

For ligations we used mainly NEB10 and some TOP10 and NEB5 cells for high efficiency.




Waste Growth Assay

O/N cultures of MG1655 transformed with (BBa_K639003) were diluted to OD 0.05 in either fresh LB or waste conditioned media and plated into 96 well plates (200ul/well). OD600 was read at the indicated time points and media only (LB) was taken away as background signal.

Serial Dilutions <b>
We did serial dilutions according to [http://biolabs.tmcc.edu/Micro%20Web/SerialDilutions.pdf Serial Dilution]</br>

<b>Preparation of Poly DEGA plates.

In addition to LB, place 0.5% poly DEGA in 20 mM Tris-HCl at pH 8.0 into the solution. In a 300 mL solution this translates to 1.5 mL poly DEGA. As poly DEGA is very viscous, before addition, ensure LB agar is kept at 70°C. We then used a magnetic stirrer to ensure that the poly DEGA was thoroughly mixed.


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