Team:UCLA/Notebook/Interlab Study

iGEM UCLA




The 2015 UCLA iGEM Interlab/Measurements Study Notebook

Introduction

The 2015 UCLA iGEM Team is proud to participate in the Second International InterLab Measurement Study in synthetic biology. As members of the synthetic biology community, we are committed to providing robust data for development of novel characterization methods in the rapidly growing biological design fields of synthetic biology.

The purpose of the 2015 InterLab study is to "measure and characterize fluorescence data for three specific genetic devices" expressing GFPmut3b (SwissProt: P42212) from active iGEM teams participating around the world. By collecting fluorescence data from multiple teams in absolute units, variability in measurement and consistency of data collected from instrumentation following a uniform procedure can be determined within a high degree of accuracy.

This notebook will record all protocols, daily experiments, basic parameters and images, as well as the raw data used to prepare the Interlab Worksheet, Protocol, and Wiki page for submission at the 2015 Giant Jamboree.

Experimental Design

Three separate genetic "devices" were constructed using Biobricks Standard Assembly 10, in addition to positive control BBa_I20270 (Constitutive Family Promoter J23151 inserted upstream of the promoter MeasKit) and negative control BBa_R0040 (pTetR - empty control plasmid). All devices were subcloned in the standard pSB1C3 (Chloramphenicol resistant) backbone and transformed into NEB 5-alpha Electrocompetent Escherichia coli (C2989K#). As such, E. coli K-12 DH5-alpha laboratory strains were used as the chassis for fluorescent measurement. Details as to the location of the registry pieces used to construct the devices are below:

Device # Promoter Registry Location Backbone GFP Generator Registry Location Backbone Final Device Backbone
Device #1 BBa_J23101 2015 1-20K pSB1C3 BBa_I3504

(B0034-E0040-B0015)

2015 4-21J pSB1A2 pSB1C3
Device #2 BBa_J23106 2015 1-22A pSB1C3 BBa_I3504

(B0034-E0040-B0015)

2015 4-21J pSB1A2 pSB1C3
Device #3 BBa_J23117 2015 1-22K pSB1C3 BBa_I3504

(B0034-E0040-B0015)

2015 4-21J pSB1A2 pSB1C3
Postive Control (BBa_I20270) J23151 2015 3-8P pSB1C3 GFPmut3b

(B0032-E0040-B0010-B0012)

2015 3-8P pSB1C3 pSB1C3
Negative Control TetR repressible promoter (BBa_R0040) 2015 2-6F pSB1C3 N/A N/A N/A pSB1C3

All devices constructed using the BioBricks Standard Assembly 10 method used digestion and ligation to assemble the final vector. For Devices 1-3, the GFP generator I13504 was digested using XbaI and PstI restriction endonucleases, and ligated downstream of the constitutive family promoters at vector digested SpeI and PstI sites, generating a BioBricks scar at the SpeI/XbaI ligation junction.

Where to go from here

The following is the process for all 4 device parts (promoter and GFP generator) and the 2 controls (Promoter MeasKit and pTetR empty). 1. Resuspend dried plasmid in each of the registry wells in 10uL ddH2O. 2.Transform plasmids using the standard NEB Electroporation method. 3. Pick transformants and prepare cultures for miniprep and glycerol stocking.

Follow is for preparation of the 3 devices using the 4 device parts from the registry. 4. Digest miniprepped promoter plasmids with SpeI and PstI, and digest miniprepped GFP generator using XbaI and PstI. 5. Run digests on gels and gel purify/DNA clean and concentrate all digested pieces. 6. Ligate digested pieces for final device construction, and transform using electroporation. 7. Pick transformants and prepare cultures for miniprep and glycerol stocking. 8. Digest miniprepped devices using EcoRI and PstI and run on a gel to verify size of the insert. 9. Sequence the 3 devices and compared alignments for predicted sequences to verify proper device implementation.

Following is the plan for fluorescence measurement and data analysis of the three devices, using + and - controls for baseline measurement. [TBD]

Raw lab notebook entries

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