Team:NC School of Sci Math/Lab Notebook

From 2013hs.igem.org

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*Find Biobricks
*Find Biobricks
*Set up schedule for lab work
*Set up schedule for lab work

Revision as of 05:15, 4 June 2013

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2013


Planning and Development

01/11/2013

Brainstorming for project ideas:

  • LDL-cholesterol biosensor
  • Ocean salinity regulator (especially for coral reefs)
  • Water contaminant multibiosensor


More research should be done

  • Find related projects that have been completed
  • Obstacles?
  • BioBricks?
  • Presentations in 3-4 weeks

01/18/2013

Discussions of each project

  • LDL-cholesterol biosensor
    • Could be used as a blood test
    • Blood sugar monitor-like device
    • Hard to measure any color change in blood
  • Ocean salinity regulator (especially for coral reefs)
    • Need a lot of bacteria
    • Environmental concerns
    • Bacteria can do well in coral reefs
  • Water contaminant multibiosensor
    • Several Biobrick promoters for common contaminants
    • Usage in sewer tanks
    • Many different colors of fluorescent proteins
    • Could incorporate newer technology for better color-sensing
    • Will look up data on promoter/FP expression

02/01/2013

Presentations

  • All ideas sound promising
  • Meet next week to decide which idea to pursue

02/08/2013

Decision on project

  • LDL-cholesterol idea won't work
    • Costly and hard to detect FPs in blood
  • Multibiosensor is appealing
    • Many applications
    • Expandable with many different FPs
    • Could bring in new technology
  • Ocean salinity regulator is difficult because of the ocean
    • Environmental factors and unknown variables

Multibiosensor chosen

02/15/2013

A few members met with Mr. Jon Davis to discuss potential technology

  • Suggested a Google device called ADK
    • Comes with a colorimeter
    • Can be programmed for many functions
    • School has a few we could try out

02/22/2013

Goals for the immediate future

  • Find Biobricks
  • Set up schedule for lab work
  • Further research into possible uses
  • Preliminary lab experiments

06/02/2012

Planning of the Wiki:

  • structure
  • design
  • header
  • sub points of the menue
  • idea of our "Online Store"


Working on our jewelry :

  • idea with small tubes, which are filled with our bacterial suspension
  • design of bracelets and necklaces for men and women
  • tinkering of jewelry
  • taking photographs of the collection

06/09/2012

Working in groups:

  • working on the Wiki
    • Online Store
      • Check Out
    • Notebook
      • design
      • content
    • Project
      • Introduction
      • Results


Biosensor Construction


02/23/2012

  • Transformation of GFP (BBa_ E0240) and RecA (BBa_J22106) from registry 2010 spring distribution into E.coli Top10 cells

Protocol:
10 ul water is added to the corresponding well, DNA is solved by incubation for 15 min at room temperature. 5 ul of DNA solution are added to 50 µl of chemocompetent Top10 cells and incubated on ice for 20 min. Afterwards, a heat shock is performed by incubation the bacteria on 42°C/50 s. After another 2 min on ice, the bacteria are plated onto LB-Amp agar plates.

02/24/2012

  • Inoculation of overnight cultures by picking one single colony from the transformed plates and adding it to 5 ml LB-Amp in a 50 ml falcon tube. The culture is incubated at 37 °C at 180 rpm.


  • Inoculation of LacZ (BBa_K173004) that we got from the registry through the Sourjik Lab on campus as agar stab into 5 ml LB Amp overnight culture

02/25/2012

  • Miniprep of parts BBa_K173004,BBa_ E0240 and BBa_J22106 by using a Qiagen Miniprep Kit

Protocol: 4 ml bacterial culture is pelleted by centrifugation at 10.000 rpm for 1 min. Afterwards, the pellet is resuspended in 250 µl buffer P1. 250 µl buffer P2 are added and the culture is gently inverted and incubated for 5 min. 350 µl buffer N3 are added and the suspension is centrifuged at 13.000 rpm for 10 min. The supernatant is subsequently loaded onto a miniprep column and centrifuged for 1 min/max speed. Afterwards the column is washed with buffer PB (500 µl) and buffer PE (750 µl) by loading onto the column and subsequent centrifugation for 1 min/max speed. After a last centrifugation step for drying the column (again 1 min/max speed), 50 µl of water are added in order to dissolve the DNA again. After 1 min incubation, DNA is eluted by centrifugation for 1 min/max speed.

  • Measurement of DNA concentration at the Nanodrop microphotometer device

1 µl of water is used as blank. Subsequently, the miniprep cultures ( 1µl each) were loaded onto the Nanodrop device in order to determine the concentration and purity of the DNA in the samples. Concentrations ranged from 70 ng/µl to 300 ng/µl

PartDNA concentration
GFP148,52 ng/µl
LacZ361,65 ng/µl
RecA98,61 ng/µl


  • Digestion of Minipreps for further cloning

We used the NEB restriction enzymes and buffers for setting up the digestions. Those were done as follows:

    • 1 µg of DNA
    • 3 µl of NEB buffer 2
    • 3 µl of BSA
    • 1 µl of each restriction enzyme used
    • Water was added to reach a final volume of 30 µl

GFP (BBa_ E0240) and LacZ (BBa_K173004) were digested with EcoRI and XbaI. RecA (BBa_J22106) was digested with EcoRI and SpeI. After setting up the digestions, the reaction mixtures were mixed briefly, spinned down in a centrifuge (quick run up to 5.000 rpm) and then incubated on a thermomixer heating device for 1 h at 37 °C and stored at -20 °C afterwards.

  • Annealing of SulA oligos:

psulA_fw:

aattcgcggccgcttctagaggggttgatctttgttgtcactggatgtactgtacatccaactcacc

psulA_rev:

ctagggtgagttactgtatggatgtacagtacatccagtgacaacaaagatcaacccctctagaagcggccgcg

The Oligos for the synthesis of the sulA-promoter were designed according to the sequence available in the partsregistry (BBa_K518010). By annealing of the oligos and ligation into a EcoRI/XbaI precut biobrick construct, they reconstitute the biobrick standard prefix completely and introduce the SulA promoter sequence.

Protocol: 5 µl of each oligo (diluted to a concentration of 100 mM) and 5 µl of NEB buffer 2 were added to 35 µl of water. After mixing, the reaction mix was heated up to 95 °C/5 min and then cooled down slowly to room temperature and then stored at -20 °C.

03/10/2012

  • Information: Standard cloning - our Strategy
    • GFP and LacZ were digested with EcoRI (E) and Xbal (X)
    • precA was digested with EcoRI and SpeI (S)
    • psulA was annealed, so it has the overhangs for EcoRI (as well as the whole BBa prefix) and a XbaI compatible overhang



  • Gelelectrophoresis of the digested biobrick parts in order to extract the GFP and LacZ backbone as well as precA

Protocol: In the meantime, the restriction digests were mixed with 6 µl of 6 x Loading Dye (fermentas). The whole restriction digest was loaded onto a 1 % agarose gel. Therefore, the agarose gel was prepared by adding 2 g of agarose to 200 ml of 1x TBE buffer and heated up in a microwave for 2 min/600 W. Thereby, the agarose was melted. Afterwards, the gel was stirred on a magnetic stirring device until the solution reached ~ 60°C and then the gel was poured. 10 µl of ethidium bromide were subsequently added by our supervisor Katharina Genreith (as EtBr is very toxic, we preferred our supervisor to do the handling of that when running a gel for the first time). The samples were then loaded on the gel together with 1kb plus loading ladder (fermentas) and run for 1 h @ 100V. The expected bands can be seen on fig. 1.


Fig. 1: Schema of the gel we expect based on the length(picture constructed using the WinSerial Cloner software)


Fig. 2: Picture taken of the gel. All expected bands are visible

  • Gel extraction of the indicated band (backbones for LacZ and GFP as well as precA insert) was done using a Qiagen gel extraction kit.

Protocol: The bands were cut of the gel under UV light (caution: wear goggles in order to protect your eyes!) using a scalpel and the extracted band was put into a 2 ml eppi cup.


Fig. 3: Picture taken of the cut gel. This picture was taken after the required bands were excised for gel extraction

Afterwards, 600 µl of buffer QG were added to each gel band and the mixture was incubated on a thermomixer device at 50 °C and 700 rpm shaking for 20 min. Afterwards, 200 µl of Isopropanol were added to the mix containing precA (as precA is pretty short compared to the others, isopropanol is required). Afterwards, the whole reaction mix was loaded onto a gel extraction column and centrifuged for 1 min/max speed; flow-through was discarded. The column was subsequently washed with 500 µl of buffer QG and then 750 µl buffer PE, always centrifuging the column at max speed for 1 min at each washing step and discarding the flow-through. Finally, DNA was eluted in 20 µl of water.

  • Concentration measurement of the pre-cut parts using Nanodrop
PartDNA concentration
GFP12.5 ng/µl
LacZ15.11 ng/µl
RecA6.0 ng/µl

03/13/2012

  • Ligation reactions were set up using 3-6 fold access of insert (precA) and 50 ng of each backbone (roughly).
      • precA-GFP: 4 µl (~50 ng) GFP-backbone + 1,5 µl (~9 ng) RecA + 2 µl T4 DNA ligase buffer + 11,5 µl water + 1 µl T4 ligase
      • precA-LacZ: 3 µl (~50 ng) LacZ-backbone + 1,5 µl (~9 ng) RecA + 2 µl T4 DNA ligase buffer + 12 µl water + 1 µl T4 ligase
      • psulA-GFP: 4 µl (~50 ng) GFP-backbone + 1 µl annealed SulA-oligos + 2 µl buffer + 12 µl water + 1 µl T4 ligase
      • psulA-LacZ: 3 µl (~50 ng) LacZ-backbone + 1 µl annealed SulA-oligos + 2 µl buffer + 13 µl water + 1 µl T4 ligase
    • Incubation for 50 min at room temperature
    • Heat inactivation of the T4 ligase at 70 °C for 5 min
  • Afterwards, 10 µl of the ligation mix (chilled) were used for transforming 50 µl of E. coli Top10 chemocompetent cells.

03/14/2012

  • Screening of the four different biobrick clonings done by colony-PCR.

Protocol:
A reaction mix was prepared containing 0.2 µl of each screening primer used for the screening, 9.6 µl of water and 10 µl of 2x PCR mastermix (fermentas). Finally, a colony was picked from a plate using a sterile pipette tip and was dipped into the PCR mix a few times. 7-8 clones were screened for each different cloning setup as follows:

    • psulA-GFP and psulA-LacZ: primers psulA_fw and VR (standard sequencing primer) were used. Only in case psulA was successfully cloned into the backbone containing the reporter gene, we would get a PCR product. GFP would give a product of roughly 1000 bp, LacZ one of roughly 3500 bp.
    • precA-GFP and precA-LacZ: primers VF2 and VR (standard sequencing primers) were used. We compared the product size of the different clones to the product size from the original vectors from the registry (only containing recA or LacZ). In case the cloning was successful, we should see a 200 bp shift in product size, which can be detected by gel electrophoresis.

The PCR program was done as follows:

94°C/3min </div>