Interlab Requirements

Objective

The iGEM interlab study embodies iGEM’s core values of collaboration, the development of an open community, the education of aspiring young scientists, and the advancement of synthetic biology. Thus, for the 2015 interlab study, the objective is for teams from around the globe to obtain fluorescence data from 3 different genetic devices. This aggregated data will not only aid the detailed characterization of these Biobricks, but also promote further joint scientific efforts of the iGEM community in synthetic biology.

Tested Devices

devices and controls here.

All of our devices were built in the PSB1C3 backbone. The Chassis for all of our devices was E. coli BL21.

Device 1: J23101+I13504 -> PSB1C3

Device 2: J23106+I13504 -> PSB1C3

Device 3: J23117+I13504 -> PSB1C3

Controls

Positive Control: BBa_I20270 -> PSB1C3

Negative Control: BBa_R0040 -> PSB1C3

Construction of the Devices

Our team acquired the necessary Biobricks for this interlab study from the distributed iGEM part kits. These Biobricks in PSB1C3 were then transformed into E. coli K12 DH5-alpha following the standard transformation protocol. The E. coli were then plated on chloramphenicol plates and incubated overnight. Individual colonies were then selected and overnight cultures with an individual colony and a standard LB mixture in 10 mL culture tubes. These overnight cultures were then incubated overnight with the appropriate amount of chloramphenicol. The overnights were then miniprepped using Qiagen's mini prep kit. The extracted plasmids were digested with restriction enzymes and run on a agarose gel to confirm the size of the interlab parts. Primers were then designed to PCR amplify the promoters and GFP biobricks. The promoters with the PSB1C3 backbone were each amplified with the PSB1C3 standard forward primer and a reverse primer that would amplify several bps after the 3' end of the promoter. Primers were also designed to amplify the IL3504 out of the PSB1C3 backbone. The primers were designed to amplify several bps after 3' end of the gene and include an overhang of several bps at the 5' end that would have 10-15 bps that correspond to the last 10-15 bps of the 3' of the respective promoter. The PSB1C3 backbone was also linearized with PCR and the standard forward and reverse primers. The PCR cycling conditions and annealing temperatures were designing following NEB's standard PCR protocol for Q5 polymerase. The PCR products were then cleaned using Qiagen's PCR clean-up kit and the size of the PCR products was verified on an agarose gel. The promoters were then each combined with IL3504 and the linearized backbone using the Gibson assembly protocol from NEB. The Gibson products were then transformed into BL21 and the completed plasmids were isolated following the aforementioned methods. These devices were then verified with gene sequencing through Genewiz. However, our team was unable to assemble the third device of the J23117 promoter and GFP. Thankfully, this DNA construct was graciously donated to us with iGEM approval from the William and Mary 2015 iGEM team.

Testing the Devices

Details about testing

Protocols

Protocols for construction of devices here.

DNA Kit Plate Instructions (http://parts.igem.org/Help:2015_DNA_Distribution)
Transformation (http://parts.igem.org/Help:Protocols/Transformation)
Preparing overnight cultures for testing
• Prepare culture in a 10 mL culture tube with a loose top
• Add 5mL LB using a seriological pipette
• Add 5uL of 1000x antibiotic (Chloramphenicol.)
• Pick a distinct colony using a pipette tip and eject tip into tube.
Miniprep – using Qiagen protocol
Transformation
Colony PCR (selecting transformants from the transformation plates)

Results

Results over here.

Team:UMaryland/Interlab