Team:TU-Eindhoven/logbook

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   "Monday June 11, 2018":{
     "organiclab":{
"html":"

Synthesis of methacrylated dextran (iG03).

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     }
   },
   "Wednesday June 13, 2018":{
     "organiclab":{
"html":"

The reaction of Dex-MA was quenched and the dialysis was started.

"
     }
   },
   "Thursday June 14, 2018":{
     "organiclab":{
"html":"

Changing the water of the dialysis each 2/3 hours.

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     }
   },
   "Friday June 15, 2018":{
     "organiclab":{
"html":"

Freezedrying of the Dex-MA started.

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     }
   },
   "Monday June 18, 2018":{
     "organiclab":{
"html":"

NMR performed to determine the Degree of Substitution.

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     }
   },
   "Tuesday June 26, 2018":{
     "Adhesin":{
"html":"

Contents

Making LB medium:

  • LB Broth powder dissolved in miliQ

Making Pre-Cultures for binding experiments

Sample 1 (Control Sample): MP15RPS

  • Cell type BL21(DE3).
  • Plasmid type PET24a (His tag on C -terminus).

Sample 2 (test condition with GFP): GFP15rps

  • Same cell type and plasmid
  • Region V of WT protein replaced with E. Coli sequence
  • GFP (mRuby) areplacing WYT RI

"
     }
   },
   "Wednesday June 27, 2018":{
     "Adhesin":{
"html":"

IPTG stock preparation

Making a concentration of 100 mM.

0.5mL should be later added to culture medium (normally 0.5mM - 1mM

Diluting bacteria for induction

Induced at OD600 values: GFPM15HA - 1.046 A; MP15RPS - 1.023 A

Culture flasks left to incubate overnight (22°C, 150 RPM)

"
     }
   },
   "Thursday June 28, 2018":{
     "Adhesin":{
"html":"

Making pellets of the cells

Cells were centrifuged and a pellet was created.

A lysis buffer was prepared.

Cells were suspended in lysis buffer.

Lysed buffer was centrifuged and the supernatant was transferred to different tubes.

Dextran beads were used to see if the loose adhesin in the buffer binds to dextran (using SDS page).

"

}

   },
   "Friday June 29, 2018":{
     "Adhesin":{
"html":"

SDS page gel examination

A band is visible above 250 kDA (our adhesin) in the pellet.

"
     }
   },
   "Monday July 2, 2018":{
     "organiclab":{
"html":"

Synthesis of a new batch of methacrylated dextran was started (iG04). The first dextran hydrogels were synthesized from the other Dex-MA batch (iG03).

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     }
   },
   "Tuesday July 3, 2018":{
     "organiclab":{
"html":"

The polymerisation reaction was quenched and the gels were washed. Some gels were not quenched, so they can polymerize a little bit longer.

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     }
   },
   "Wednesday July 4, 2018":{
     "Adhesin":{
"html":"

Nickel column

Nickel column performed with resin.

Seperated these samples:

  • GFP supernatant.
  • GFP pellet (bound to resin).
  • WT supernatant.
  • WT pellet (bound to resin).

SDS gel electrophoresis

SDS gel electrophoresis performed on the samples above.

The purification by his-tag was not very effective. This may be due to protein binding domain binding to other proteins.

The GFP proteins did not bind well to the Ni resin. This is likely due to degradation at the C-terminus and should not affect binding to dextran.

"
     },
     "organiclab":{
"html":"

The reaction for the new batch of Dex-MA (iG04) was quenched and dialysis started.

"
     }
   },
   "Thursday July 5, 2018":{
     "Adhesin":{
"html":"

The plan is to test two variants for dextran binding: 1) Normal modified Adhesin and 2) Bacteria expressing the Adhesin without the binding domains (control).

Making agar plates

Made agar plates in the microwave using 25 g/L LB broth and 15 g/L bacto-agar.

Preparing cultures for FACS experiments tomorrow

  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control)
  • mR15HA - mRuby Adhesin with 15 repeats of region II and a binding domain.
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     },
     "organiclab":{
"html":"

The other gels from 18-07-02 were quenched and washed.

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     }
   },
   "Friday July 6, 2018":{
     "Adhesin":{
"html":"

FACS preparations

Performed an OD measurement (for FACS we will need approximately 10^7 cells) and diluted the cells.

Prepared Tris buffer (10 mM tris, 150 mM NaCl and 2 mM CaCl).

Made a pellet from the cells and resuspended in Tris buffer. This was used for a measurement on the FACS device with dextran beads that have a fluorescent label. This was done for both mR15HA and mRII18HA.

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     },
     "organiclab":{
"html":"

Freezedring of iG04 started.

>"
     }
   },
   "Monday July 9, 2018":{
     "Adhesin":{
"html":"

Preparing 2YT stock solution

2YT medium was prepared and sterilized to grow bacteria that have been frozen for a long time.

Started cultures from frozen stock

  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control)
  • mR15HA - mRuby Adhesin with 15 repeats of region II and a binding domain.
"
     },
     "organiclab":{
"html":"

NMR performed to determine the Degree of Substitution of iG04.

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     }
   },
   "Tuesday July 10, 2018":{
     "Adhesin":{
"html":"

Cultures that have been grown have been induced are tested with fluorescent antibodies (his tag) to see if they can bind to Adhesin and therefore we know it is fully expressed and exported to the outside.

Frozen permanent made (glycrol stock)

  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control)
  • mR15HA - mRuby Adhesin with 15 repeats of region II and a binding domain.

SACS experiment

Cultures were induced and the ODs are measured over time in multiple conditions (20,0°C, 37,0°C). Samples of the cultures were taken at different timepoints. Pellets of the cultures were made and resuspended. Antibodies were added and the cells were measured using SACS.

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     },
     "organiclab":{
"html":"

Synthesis of a new batch of methacrylated dextran was started (iG05).

"
     }
   },
   "Wednesday July 11, 2018":{
     "Adhesin":{
"html":"

Same procedure was done as yesterday.

"
     }
   },
   "Thursday July 12, 2018":{
     "Adhesin":{
"html":"

FACS device

Today we discussed with our supervisor what we would do next week in his absence. We also got an introduction on how to work with the FACS device.

Preparing 2YT stock solution

2YT medium was prepared and sterilized to grow bacteria that have been frozen for a long time.

"
     },
     "organiclab":{
"html":"

The reaction for the new batch of Dex-MA (iG05) was quenched and dialysis started.

"
     }
   },
   "Friday July 13, 2018":{
     "organiclab":{
"html":"

Freezedring of iG05 started.

"
     }
   },
   "Monday July 16, 2018":{
     "Adhesin":{
"html":"

Kanamycin stock solution is prepared

A kanamycin stock solution was prepared (50 mg/mL) in miliQ.

LB cultures of R18 and R15 are prepared from colony plates

  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control)
  • mR15HA - mRuby Adhesin with 15 repeats of region II and a binding domain.

Make new plates of R18 and R15

The permanently frozen bacteria were taken from the freezer, and used to make new plates of R15 and R18.

"
     },
     "organiclab":{
"html":"

NMR performed to determine the Degree of Substitution of iG05. Synthesis of dextran hydrogels from iG04.

"
     }
   },
   "Tuesday July 17, 2018":{
     "Adhesin":{
"html":"

Making agar plates

Made agar plates in the microwave using 25 g/L LB broth and 15 g/L bacto-agar containing Kanamycin and Chloramphenicol.

Experimenting with dextran hydrogel and bacteria

Pieces of dextran hydrogel were added to mR15HA and mRII18HA cultures and shaken overnight. This was to seed the hydrogel with the respective bacteria.

"
     },
     "organiclab":{
"html":"

The polymerisation reaction of 18-07-16 was quenched and the gels were washed.

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     }
   },
   "Wednesday July 18, 2018":{
     "Adhesin":{
"html":"

Experimenting with dextran hydrogel and bacteria

The gels that incubated overnight were transferred to new medium with roughly equal OD and then were induced for protein expression. After incubating again they were washed with water, pictured for red fluorescence and then placed again in cell-free medium, adding EDTA to one R15 culture. EDTA should chelate the calcium and denature the Adhesin, causing the cells to detach from the gel. If Adhesin binding works as we hope it should make this gel less fluorescent than the R15 without EDTA. Pictures of the red fluorescence were taken.

Plating the gel medium

From each growth tube a 20μL was pipetted onto an agar plate.

"
     },
     "organiclab":{
"html":"

Synthesis of dextran hydrogels from iG05.

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     }
   },
   "Thursday July 19, 2018":{
     "Adhesin":{
"html":"

Analyzing the data from yesterday

The agar-LB plates were inspected for colonies. The images from yesterday were analyzed.

"
     },
     "organiclab":{
"html":"

Synthesis of dextran hydrogels from iG05 in a 96-well plate. The polymerisation reaction of 18-07-18 was quenched and the gels were washed.

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     }
   },
   "Friday July 20, 2018":{
     "organiclab":{
"html":"

The polymerisation reaction of 18-07-19 was quenched and the gels were washed.

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     }
   },
   "Monday July 23, 2018":{
     "organiclab":{
"html":"

Synthesis of dextran hydrogels from iG05 in a 96-well plate.

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     }
   },
   "Tuesday July 24, 2018":{
     "organiclab":{
"html":"

Synthesis of dextran hydrogels from iG05 in a 96-well plate. The polymerisation reaction of 18-07-23 was quenched and the gels were washed.

"
     }
   },
   "Wednesday July 25, 2018":{
     "organiclab":{
"html":"

Synthesis of dextran hydrogels from iG05 in a 96-well plate. The polymerisation reaction of 18-07-24 was quenched and the gels were washed.

"
     }
   },
   "Thursday July 26, 2018":{
     "organiclab":{
"html":"

The polymerisation reaction of 18-07-25 was quenched and the gels were washed.

"
     }
   },
   "Monday July 30, 2018":{
     "Adhesin":{
"html":"

LB cultures of R18 and R15 + WT are prepared from colony plates

  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control)
  • mR15HA - mRuby Adhesin with 15 repeats of region II and a binding domain.
  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
"
     },
     "cloning":{
"html":"

PCR

A PCR was performed to synthesize the correct pieces of DNA to perform a Gibson Assembly on.

The following constructs were chosen:

Lysostaphin-HlyA-His (CL2). This construct represents natural lysostaphin with our new secretion system.

  • 1500 bp
  • Annealing temp. = 51.7 °C

Sec-Delay-Lysostaphin-His (CL3). This represents natural lysostaphin and its natural secretion system.

  • 1266 bp
  • Annealing temp. = 50.3 °C

HlyA-His (CL4). This represents only the secretion system.

  • 657 bp
  • Annealing temp. = 50.1 °C
"
     },
     "organiclab":{
"html":"

Synthesis of dextran hydrogels from iG05 in a 96-well plate.

"
     }
   },
   "Tuesday July 31, 2018":{
     "Adhesin":{
"html":"

Prepare LB broth and make agar-LB plates

For LB broth (25 g/L LB broth) and LB-agar (25 g/L LB broth and 15 g/L bacto-agar)

Incubate dextran hydrogels and induce cultures

Each of the 3 cultures (mRII18HA, mR15HA, WT15HA) were induced and two intact dextran hydrogels were added.

"
     },
     "cloning":{
"html":"

PCR analysis

To analyze whether or not the PCR had succeeded in amplifying our constructs of DNA, the samples were run on an agarose gel. After analyzing the samples using an UV reader, it could be concluded that CL2 and CL4 had a clear and sharp band at the correct length and were thus successfully amplified. CL3 however, was vague and had no clear band at the desired length and thus not amplified correctly. Another PCR of CL3 will be performed tomorrow.

"
     },
     "organiclab":{
"html":"

The polymerisation reaction of 18-07-30 was quenched and the gels were washed.

"
     }
   },
   "Wednesday August 1, 2018":{
     "Adhesin":{
"html":"

Experimenting with dextran hydrogel and bacteria

Dextran hydrogels were transferred to culture tubes and shaken to wash out loosely bound bacteria. Then transferred again to new medium, crushed and plated (see iGEM Eindhoven protocols). This was done for three different conditions: mRII18HA, mR15HA and WT15HA.<p>

New culture plates

<p>Culture plates from frozen stock mRII18HA, mR15HA and WT15HA were made.

"
     },
     "cloning":{
"html":"

PCR of CL3

Since CL3 (Sec-Delay-Lysostaphin-His) was not correctly amplified with PCR the day before, it was tried again with stricter conditions and a different temperature gradient. When it was analyzed on an UV reader after running it on an agarose gel we concluded that there was no improvement and it was still not correctly amplified. A third try of PCR will be performed tomorrow.

PCR purification

The CL2 Lysostaphin-HlyA-His and CL4 HlyA-His constructs have been purified and measured on a Nanodrop to give the following concentrations:

  • Lysostaphin-HlyA-His (CL2) = 26.7 ng/µL
  • HlyA-His (CL4) = 30.0 ng/µL

"

}

   },
   "Thursday August 2, 2018":{
     "Adhesin":{
"html":"

Experimenting with dextran hydrogel and bacteria

The plates from yesterday were analysed and a cell count was done.

"
     },
     "cloning":{
"html":"

PCR of CL3

We tried to to a PCR of CL3 for the third time with an even greater temperature gradient. After analysis we found out that there was still no improvement. We had decided to not continue with it, since we would be using the HlyA secretion system anyway instead of the natural secretion system.

"

}

   },
   "Friday August 3, 2018":{
     "cloning":{
"html":"

PCR of vector TetO and insert HlyB/D

A PCR was performed on the vector TetO and insert HlyB/D (for the secretion system). The following constructs were amplified:

Vector TetO

  • 2598 bp
  • Annealing temp. = 50.7°C

Insert HlyB/D

  • 3579 bp
  • Annealing temp. = 50.0°C

Analysis of the PCR products showed that the vector TetO had one clear band at the correct height, but the insert HlyB/D showed only a band around the size of the amplification primers

"

}

   },
   "Monday August 6, 2018":{
     "Adhesin":{
"html":"

LB cultures of R18 and R15 + WT were prepared from colony plates

  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control)
  • mR15HA - mRuby Adhesin with 15 repeats of region II and a binding domain.
  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.

SEM

Small culture with dextran hydrogel inside was left induced overnight to be used for SEM tomorrow

Making agar plates

Made agar plates in the microwave using 25 g/L LB broth and 15 g/L bacto-agar containing Kanamycin and Chloramphenicol.

"
     },
     "cloning":{
"html":"

Repeat of PCR of HlyB/D

HlyB/D would be run twice, once with the dilution from Friday, August 3rd with 0.95 ng/µL and once undiluted with 95.2 ng/µL. After analyzing it was seen that there were two clear bands at the correct height, and thus the amplification of HlyB/D had succeeded this time.

Culturing of pBAD vector in Nova Blue cells

The pBAD vector in NB cells was cultured in 8 mL LB and 8 µL Ampicillin. It was cultured overnight in the incubator at 37°C, 250 rpm.

"
     },
     "organiclab":{
"html":"

Synthesis of a new batch of methacrylated dextran was started (iG06).

"
     }
   },
   "Tuesday August 7, 2018":{
     "cloning":{
"html":"

Plasmid purification of pBAD

Plasmid purification was performed for 2x 1.5 mL cell culture. DNA concentration was measured with the NanoDrop.

  • 1. pBAD = 35 ng/µL</il><il>2. pBAD = 41 ng/µL</il>

PCR of purified DNA from pBAD

<p>A PCR was performed on the DNA obtained by the purification performed this morning on the overnight cultures. A construct pBAD of 3957 bp and an annealing temperature of 54.9°C was used. PCR was run overnight.

"
     }
   },
   "Wednesday August 8, 2018":{
     "Adhesin":{
"html":"

Prepare LB broth and make agar-LB plates

For LB broth (25 g/L LB broth) and LB-agar (25 g/L LB broth and 15 g/L bacto-agar).

LB cultures of R18 and R15 + WT were prepared from colony plates

Previous cultures didn’t grow well, therefore the following bacteria were cultured again:

  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control)
  • mR15HA - mRuby Adhesin with 15 repeats of region II and a binding domain.
  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.

SEM

Pictures of our hydrogel containing bacteria were made using SEM.

"
     },
     "cloning":{
"html":"

PCR analysis of pBAD

After analyzing with an UV reader, a clear band could be seen at the correct height.

PCR purification

A PCR purification was then performed on the three constructs and measured with Nanodrop:

  • pTetO = 32 ng/µL
  • HlyB/D = 45.9 ng/µL (2 PCR products added together)
  • pBAD = 37 ng/µL

DpnI digestion, Gibson Assembly and Transformation

A digestion was performed on the pTetO and pBAD constructs. This was followed by a Gibson Assembly with the pBAD + Lysostaphin-HlyA-His and pTetO + HlyB/D constructs. These constructs were then transformed into C2987 cells. After an overnight incubation it was seen that pBAD + lysostaphin-HlyA-His cells showed some colonies, whilst the pTetO+HlyB/D had no colonies.

"
     },
     "organiclab":{
"html":"

The reaction for the new batch of Dex-MA (iG06) was quenched and dialysis started.

"
     }
   },
   "Thursday August 9, 2018":{
     "Adhesin":{
"html":"

Incubate dextran hydrogels and induce cultures

Each of the 3 cultures (mRII18HA, mR15HA, WT15HA) were induced and two intact dextran hydrogels were added.

"
     },
     "cloning":{
"html":"

Colony picking of pBAD-Lysostaphin-HlyA-His.

After colony picking, we made 6 small cultures of the pBAD-Lyso-HlyA-His cells that were transformed the day before.

Colony PCR of pBAD-Lysostaphin-HlyA.

A Colony PCR was performed on the pBAD-Lysostaphin-HlyA cells to see if the lysostaphin gene has been produced. 2 out of the 6 cultures had the correct gene after analyzing results overnight.

Plating.

PTetO + HlyB/D was plated again to what went wrong yesterday. This time there were a lot of colonies.

"
     },
   },
   "Friday August 10, 2018":{
     "Adhesin":{
"html":"

Making new Tris buffer

Prepared Tris buffer (10 mM tris, 150 mM NaCl and 2 mM CaCl).

Gel washing experiment

Performed the Gel washing experiment (see iGEM Eindhoven protocols), this time with different washing and different conditions. For example EDTA was added to see if this makes a difference.

"
     },
     "cloning":{
"html":"

Analysis, purification and storage of the pBAD-Lysostaphin-HlyA-His constructs.

The PCR products of the 6 pBAD-Lysostaphin-HlyA-His small cultures were analyzed with an agarose gel and UV reader. Colony 3 and 4 contained the correct insert. After that, a 50% glycerol stock was made for colony 3 and 4 and then it was purified with the following results:

  • pBAD-Lysostaphin-HlyA-His 3 = 54.8 ng/µL
  • pBAD-Lysostaphin-HlyA-His 4 = 61.8 ng
"
     },
     "organiclab":{
"html":"

Freezedring of iG06 started.

"
     }
   },
   "Monday August 13, 2018":{
     "Adhesin":{
"html":"

LB cultures of R18 and R15 + WT were prepared from colony plates

  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control)
  • mR15HA - mRuby Adhesin with 15 repeats of region II and a binding domain.
  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.
"
     },
     "cloning":{
"html":"

Colony picking and PCR of pTetO + HlyB/D

6 colonies were picked from the plated pTetO + HlyB/D of yesterday to create 6 small cultures. A colony PCR was then performed on these small cultures to check for the presence of HlyB/D.

"
     },
     "organiclab":{
"html":"

NMR performed to determine the Degree of Substitution of iG06. Synthesis of dextran hydrogels from iG06 in a 96-well plate.</p" } }, "Tuesday August 14, 2018":{ "Adhesin":{ "html":"

Incubate dextran hydrogels and induce cultures

<p>Each of the 4 cultures (mRII18HA, mR15HA, WT15HA and WT15HA NO SECRETION SYSTEM) were induced and two intact dextran hydrogels were added.

"
     },
     "cloning":{
"html":"

PCR analysis and colony PCR

The products from the PCR of the yesterday were analyzed with an agarose gel and UV reader, but only bands at the heights of the primers was visible. Therefore, a new colony PCR was performed on the same 6 cultures.

"
     },
     "organiclab":{
"html":"

The polymerisation reaction of 18-08-13 was quenched and the gels were washed.

"
     }
   },
   "Wednesday August 15, 2018":{
     "Adhesin":{
"html":"

Gel washing experiment

Performed the Gel washing experiment (see iGEM Eindhoven protocols), with 4 different bacteria present in hydrogels and 5 conditions in total.

Kanamycin stock solution is prepared

A kanamycin stock solution was prepared (50 mg/mL) in miliQ.

"
     },
     "cloning":{
"html":"

Analysis of colony PCR

Colony PCR was analyzed with agarose gel and UV reader, and it did not succeed. There were no clear bands, only some vague bands around the heights of the primers.

Transformation of pBAD-Lysostaphin into BL21 (DE3) cells

Colony 3 and 4 of the purification on Friday, the 10th of August were used for the transformation into BL21 (DE3) cells.

Colony picking

New colonies were picked from the pTetO-HlyB/D plates to check for the presence of HlyB/D. 10 small cultures were made.

"
     },
     "organiclab":{
"html":"

Synthesis of dextran hydrogels from iG06 in a 96-well plate.

"
     }
   },
   "Thursday August 16, 2018":{
     "Adhesin":{
"html":"

Experimenting with dextran hydrogel and bacteria

The plates from yesterday were analysed and a cell count was done.

"
     },
     "cloning":{
"html":"

Colony PCR and PCR analysis.

A colony PCR was performed on the 10 small cultures created yesterday with pTetO-HlyB/D. After that, the colony PCR of yesterday was analyzed. Once again, there were no results as there were only bands arounds the primers.

"
     },
     "organiclab":{
"html":"

The polymerisation reaction of 18-08-15 was quenched and the gels were washed.

"
     }
   },
   "Friday August 17, 2018":{
     "cloning":{
"html":"

Colony PCR and analysis

A new colony PCR was performed, but this time with a control sample that had the construct HlyB/D and the 10 new small cultures. It failed again, as there were no bands from the small cultures (only at the heights of the primers). However, the control samples gave a clear band at the right height.

"
     }
   },
   "Monday August 20, 2018":{
     "Adhesin":{
"html":"

Making cultures for SEM and following experiments

  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.
.

A part of these cultures were induced and a hydrogel was added.

"
     },
     "cloning":{
"html":"

Second attempt for the Gibson Assembly of pTetO + HlyB/D

Both the insert (pTetO) and the vector (HlyB/D) were digested and then transformed into C2987 cells. This resulted in a lot of colonies.

New small cultures

New small cultures were made from the colonies pBAD-Lysostaphin-HlyA-His 3 and 4.

"
     }
   },
   "Tuesday August 21, 2018":{
     "Adhesin":{
"html":"

Making agar plates

Made agar plates in the microwave using 25 g/L LB broth and 15 g/L bacto-agar containing Kanamycin and Chloramphenicol.

Gel Dissolving Experiment

Tried to dissolve our dextran hydrogel using trueGel3D Enzymatic Cell Recovery Solution from Sigma-Aldrich.

Culture OD600 measurement check

The OD600 values of the cultures set yesterday were to low, much lower than the 1.4A we were aiming for. Bacteria seem to grow slowly. This may be due to high antibiotics concentration, or due to culture plates being too old. On advice new cultures were taken from two colonies:

  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.
"
     },
     "cloning":{
"html":"

Small cultures, PCR and analysis of new pTetO + HlyB/D

New small cultures were made of pTetO+HlyB/D which were incubated for 5 hours in the morning, and then a colony PCR was run with a control construct that has the HlyB/D. It turned out that colony 3, 4 and 5 had a band at the right height but were quite thin and samples 4 and 5 had an extra band.

Lysostaphin induction

An induction of lysostaphin was done to see if it gets produced. This was done on the transformed cells from Wednesday the 15th of August. Induction was done with arabinose. It was analyzed with an SDS-PAGE in which we could see a clear protein production pattern over time, but it seemed as if lysostaphin-HlyA was cleaved over time since the bands at 50kDa (combined weight) dissappeared and bands at 25 kDa (separate weights) occurred.

"
     },
   },
   "Wednesday August 22, 2018":{
     "Adhesin":{
"html":"

Gel Dissolving Experiment

Tried to dissolve our dextran hydrogel using trueGel3D Enzymatic Cell Recovery Solution from Sigma-Aldrich using different concentrations than yesterday.

Culture OD600 measurement check

Cultures that were set yesterday were still growing very slowly.

Incubate dextran hydrogels and induce cultures

Each of the cultures (WT15HA and WT15HA NO SECRETION SYSTEM) were induced and 3 intact dextran hydrogels were added to each condition.

"
     },
     "cloning":{
"html":"

Plasmid purification

The plasmid purification was done with the mini prep kit. It was done on the 3 colonies that seemed to express HlyB/D based on colony PCR from August 21. The following concentrations were obtained with Nanodrop.

  • pTetO-HlyB/D 3 = 24 ng/µL
  • pTetO-HlyB/D 4 = 20.5 ng/µL
  • PTetO-HlyB/D 5 = 33.5 ng/µL
"
     }
   },
   "Thursday August 23, 2018":{
     "Adhesin":{
"html":"

Gel washing experiment

Performed the Gel washing experiment (see iGEM Eindhoven protocols), with 2 different bacteria present in hydrogels and 3 conditions in total.

"
     },
     "cloning":{
"html":"

Checking the Gibson Assembly by Digestion with Ndel

This was performed on the 3 samples from yesterday. It was unclear whether or not the Gibson Assembly had worked, since the digestion time was too short and the concentrations of the samples was too low. Only sample 5 showed two light bands around the expected sizes.

Glycerol stock

50% glycerol stocks were made from the three samples to be stored in the -80°C freezer.

Double transformation of pBAD-lyso + pSTV HlyB/D

  • pBAD-Lysostaphin and pSTV-HlyB/D were double transformed into BL21 (DE3) cells. There were colonies and it had thus succeeded.
"
     }
   },
   "Friday August 24, 2018":{
     "Adhesin":{
"html":"

Gel washing experiment

The wash buffers that were left from the gel washing experiment were also plated (no time yesterday).

New culture plates

Culture plates from frozen stock WT15HA and WT15HA NO SECRETION SYSTEM were made.

Formaldehyde solution

A new 4% formaldehyde solution was made for fixing bacteria in hydrogels for SEM.

Experimenting with dextran hydrogel and bacteria

The plates from yesterday were analysed and a cell count was done.

"
     },
     "cloning":{
"html":"

Repeat digestion of pTetO with Ndel and BamH1 and PstlHf

When the samples were run over an agarose gel, it turned out that both the pBAD-Lysostaphin-HlyA-His and pTetO-HlyB/D showed the correct bands at the correct height.

"
     }
   },
   "Monday August 27, 2018":{
     "Adhesin":{
"html":"

Making cultures for for experiments:

  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.

Chloramphenicol stock solution is prepared

A chloramphenicol stock solution was prepared (30 mg/mL) in ethanol

"
     },
     "cloning":{
"html":"

Only new autoclaved LB was made this day.

"
     },
     "organiclab":{
"html":"

New molds with cavity have been designed.

"
     }
   },
   "Tuesday August 28, 2018":{
     "Adhesin":{
"html":"

Making new tris buffers

  • 10 mM tris pH 9, 150 mM NaCl, 2 mM CaCl
  • 10 mM tris pH 9, 150 mM NaCl, 0.5 mM EDTA

Incubate dextran hydrogels and induce cultures

Each of the cultures (WT15HA and WT15HA NO SECRETION SYSTEM) were induced and 5 intact dextran hydrogels were added to each condition.

"
     },
     "cloning":{
"html":"

Double transformation

A new double transformation of pBAD-Lysostaphin-HlyA-His and pTetO-HlyB/D was performed into BL21 (DE3) cells. This resulted in 50-100 colonies.

Bigger culture (150 mL)

Big cultures were made from the pBAD-Lysostaphin-HlyA-His (C2987 cells) and pTetO-HlyB/D (C2987 cells).

"
     }
   },
   "Wednesday August 29, 2018":{
     "Adhesin":{
"html":"

Gel washing experiment

Performed the Gel washing experiment (see iGEM Eindhoven protocols), with 2 different bacteria present in hydrogels and 3 conditions in total.

SEM experiment

Also prepared dextran hydrogels in bacterial medium (WT15HA and WT15HA NO SECRETION SYSTEM). Afterwards formaldehyde solution was added to fixate the dextran hydrogels.

"
     },
     "cloning":{
"html":"

Midi prep

A midi prep was performed on pBAD-Lysostaphin-HlyA-His in C2987 cells and pTetO-HlyB/D in C2987 cells. The concentrations measured with the Nanodrop were too low so the midi prep failed.

Small cultures.

Several small cultures were made for protein induction and mini prep that will be performed later this week.

"
     },
     "biobrick":{
"html":"

Digestion of lysostaphin construct and T7 promoter

Performed digestion of lysostaphin (from Stockholm 2016) and T7 promoter as described in iGEM Eindhoven protocols.

Ligation of lysostaphin construct to T7 promoter

Performed ligation of lysostaphin to T7 promoter as described in iGEM Eindhoven protocols.

Transformation of T7-lysostaphin into NovaBlue

The T7-lysostaphin construct is ligated into pSB1C3, followed by transformation into NovaBlue competent cells. The procedure for ligation and transformation is described in iGEM Eindhoven protocols. The transformed bacteria were plated on chloramphenicol plates and left in the incubator at 37 °C for overnight.

"
     },
     "organiclab":{
"html":"

We received the new PMMA molds for the experiments with the gels with a cavity.

"
     }
   },
   "Thursday August 30, 2018":{
     "cloning":{
"html":"

Protein induction

Protein induction was performed to test the production and secretion of lysostaphin, analyzed with SDS-PAGE. Protein induction was performed on:

  • pBAD-Lysostaphin-HlyA-His 3 (BL21(DE3)), induced by arabinose.
  • pBAD-Lysostaphin-HlyA-His + pTeto-HlyB/D (BL21(DE3)), induced by arabinose and ATC.
  • pBAD-Lysostaphin-HlyA-His +pSTV- HlyB/D (BL21(DE3)), induced by arabinose and IPTG.

Will be analyzed on Friday

"
     },
     "biobrick":{
"html":"

Colony picking

Colony picking of bacteria transformed with T7-lysostaphin is performed. The picked colonies are grown in LB medium and incubated overnight at 300 rpm and 37 °C.

"
     },
     "organiclab":{
"html":"

We received a new PDMS mold for the gels with a cavity. Synthesis of the first gels with a cavity was started.

"
     }
   },
   "Friday August 31, 2018":{
     "cloning":{
"html":"

Plasmid purification (midi prep).

A new plasmid purification was done, but this time with mini prep. It was performed on C2987 pBAD-Lysostaphin-HlyA-His and pTetO-HlyB/D. This resulted in the following concentrations:

  • C2987 pBAD-Lysostaphin-HlyA-His 1 = 70 ng/µL
  • C2987 pBAD-Lysostaphin-HlyA-His 2 = 70 ng/µL
  • C2987 pTetO-HlyB/D 1 = 22 ng / µL
  • C2987 pTetO-HlyB/D 2 = 18.5 ng / µL

SDS PAGE

The SDS PAGE of Thursday was analyzed. There were no clear bands and thus no proof that lysostaphin had been expressed or secreted.

"
     },
     "biobrick":{
"html":"

Colony PCR

Colony PCR of the bacteria transformed with lysostaphin-T7 in pSB1C3 was performed as described in iGEM Eindhoven protocols.

"
     },
     "organiclab":{
"html":"

The polymerisation reaction of the gels with a cavity was quenched and the gels were washed. The PDMS mold gave the best gels, so we continued working with this mold instead of with the PMMA mold.

"
     }
   },
   "Monday September 3, 2018":{
     "Adhesin":{
"html":"

Making cultures for for experiments

  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.
"
     },
     "cloning":{
"html":"

Small cultures

Small cultures were made from glycerol stocks from the -80 °C freezer of the pBAD-Lysostaphin-HlyA-His (C2987) and pTetO-HlyB/D (C2987) for DNA purification. Also, primer dilutions were made for sequencing.

"
     },
     "biobrick":{
"html":"

Make fresh cultures starting from old ones

Fresh LB medium is inoculated with the culture of transformed cells from August 30.

"
     }
   },
   "Tuesday September 4, 2018":{
     "Adhesin":{
"html":"

Culture OD600 measurement check

Cultures didn’t grow enough to work with. Probably the plates we set cultures from were damaged, therefore we decided to start everything from scratch. We discarded the cultures.

NaCl stock was prepared

A 5M stock of NaCl in miliQ was prepared.

Gel Dissolving Experiment II

LB Medium was made with pH 7.4 made by adding kOH and HCl to LB and a dextran hydrogel was added. Different concentrations of trueGel3D Enzymatic Cell Recovery Solution were used to dissolve the hydrogel.

"
     },
     "cloning":{
"html":"

Double transformation

We wanted to make the following constructs:

  • pET28a-HlyA + pSTV-HlyB/D --> had no colonies (most likely due to using the diluted pSTV samples, instead of the undiluted. This meant that there was not enough DNA for a transformation.
  • pET28a-HlyA + pTetO-HlyB/D --> had colonies

Small cultures

Small cultures were made of the following constructs to be used for protein induction.

  • pBAD-Lysostaphin-HlyA-His + pTeto-HlyB/D (BL21(DE3))
  • pBAD-Lysostaphin-HlyA-His + HlyB/D (BL21(DE3)).

Plasmid purification (mini prep).

This was done to prepare the samples to be sequenced. First, the DNA had to be purified.

After mini prepping, the following concentrations were obtained via Nanodrop:

  • pBAD-Lysostaphin-HlyA-His 3 = 125 ng/μL
  • pTeto-HlyB/D 5 = 54 ng/μL.

These samples were then send to be sequenced.

"
     },
     "biobrick":{
"html":"

Digestion

The sugar binding domain (BBa_K2812000) and linearized pSB1C3 are digested.

Ligation and transformation

The sugar binding domain is ligated into pSB1C3. The resulting vector is transformed into competent NovaBlue cells. The transformed cells were plated on agar LB plates with chloramphenicol and were incubated overnight at 37 °C.

"
     }
   },
   "Wednesday September 5, 2018":{
     "cloning":{
"html":"

Protein induction

Protein induction was performed again to check for lysostaphin expression. The following constructs were used for this:

  • pBAD-Lysostaphin-HlyA-His + pTetO-HlyB/D (BL21(DE3)), induced by arabinose and ATC.
  • pBAD-Lysostaphin-HlyA-His + pSTV-HlyB/D (BL21(DE3)), induced by arabinose and IPTG.

Will be analyzed on Thursday.

Double transformation

Since on Tuesday, a diluted pSTV sample was used which resulted in a failed double transformation, it was performed again with the undiluted pSTV. This resulted in colonies.

"
     },
     "biobrick":{
"html":"

Colony PCR

Colony PCR is performed with colonies of the bacteria transformed with the sugar binding domain. The resulting amplified DNA is analyzed with an agarose gel.

"
     }
   },
   "Thursday September 6, 2018":{
     "Adhesin":{
"html":"

Fresh transformation with adhesion

A fresh transformation was done using the following plasmids:

  • R1R15HA - SBD adhesin with Kanamycin resistance.
  • PSTV HlyB/D - Secretion system type I with Chloramphenicol resistance.
  • This was done following the iGEM Eindhoven transformation protocol. This was done twice in E. Coli BLR Strain. Once using only the R1R15HA plasmid (No secretion system) and once using both plasmids.

New culture plates

Culture plates from frozen stock WT15HA and WT15HA(No secretion system) were made.

"
     },
     "cloning":{
"html":"

SDS PAGE

No clear bands that showed Lysostaphin expression in the cell.</p

Protein induction

<p>This time, protein induction was done to check Lysostaphin expression and secretion.

Constructs:

  • pBAD-Lysostaphin-HlyA-His + pTetO-HlyB/D
  • pBAD-Lysostaphin-HlyA-His + pSTV-HlyB/D.

We used different concentrations of IPTG and 200 μM arabinose for induction. The induction started at an OD around 0.7. The induction was done at 30 °C at 180 rpm. The samples were taken at t0 and overnight.

Small culture with direct induction.

This was done to only induce HlyA, no lysostaphin should be present.

Constructs used:

  • pET28a-HlyA + pSTV-HlyB/D, induced by IPTG.
  • pET28a-HlyA + pTetO-HlyB/D, induced by IPTG and ATC.
"
     },
     "biobrick":{
"html":"

Digestion

Linearized pSB1C3 is digested. The digested plasmid is purified with agarose gel purification as described in iGEM Eindhoven protocols.

Ligation and transformation

The sugar binding domain and lysostaphin are ligated into pSB1C3. The resulting plasmids are transformed into competent XLI cells. The transformed cells are spreaded on plates with chloramphenicol and incubated overnight at 37 °C.

"
     }
   },
   "Friday September 7, 2018":{
     "biobrick":{
"html":"

Colony PCR of SBD colonies

Colony PCR of the colonies transformed with sugar binding domain is performed. The resulting DNA is analyzed with agarose gel analysis.

Small cultures

Small cultures are made from colonies of with successfully transformed cells with sugar binding domain construct.

"
     }
   },
   "Monday September 10, 2018":{
     "biobrick":{
"html":"

Colony PCR

A colony PCR is performed with bacteria transformed with the lysostaphin construct. The resulting DNA is analyzed with an agarose gel.

Small cultures

Small cultures are made of the sucesfully transformed cells with lysostaphin construct.

Miniprepping

The cultures of bacteria with lysostaphin are used for miniprepping. The DNA concentration in the miniprepped samples is measured with the Nanodrop technique.

"
     }
   },
   "Tuesday September 11, 2018":{
     "Adhesin":{
"html":"

Making cultures for for experiments:

This time from the freshly transformed bacteria.

  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.
"
     },
     "cloning":{
"html":"

Protein induction

Only induction of Lysostaphin (no secretion) based on the small cultures from yesterday. The construct used is pBAD-Lysostaphin-HlyA-His. It was induced at several concentrations of arabinose. These ranged from 0.2% - 0.000002%. Samples were taken before induction, after 4h and overnight.

SDS PAGE

Analyzing the SDS PAGE from Monday. There was only secretion by the pSTV-HlyB/D cells.

"
     },
     "biobrick":{
"html":"

Prepare samples for sequencing

Samples for sequencing were prepared of the miniprepped vector with sugar binding domain.

Miniprepping lysostaphin

Cultures of bacteria with lysostaphin were miniprepped. The concentration of the resulting samples is measured with the nanodrop technique.

"
     }
   },
   "Wednesday September 12, 2018":{
     "Adhesin":{
"html":"

Glycerol Stock BLR

Glycerol Stock was prepared for both WT15HA and WT15HA (No secretion system).

Incubate dextran hydrogels and induce cultures

Each of the cultures (WT15HA and WT15HA NO SECRETION SYSTEM) were induced and 5 intact dextran hydrogels were added to each condition. In this case we used Erlenmeyer’s for the hydrogel seeding.

"
     },
     "cloning":{
"html":"

Small cultures

Small cultures were made for induction from the following constructs:

  • pET24a-HlyA + pTetO-HlyB/D
  • pBAD-Lysostaphin-HlyA-His

SDS PAGE

We did an SDS again to check for lysostaphin expression at different inducer concentrations. The construct used was pBAD-Lysostaphin-HlyA-His. There was no clear expression, and the samples were a bit overloaded.

Loaded 5 μL of the pellet samples. Still no clear overexpression of Lysostaphin, also the samples were a bit overloaded.

"
     },
     "biobrick":{
"html":"

Transformation lysostaphin from Stockholm 2016 into BL21

The lysostaphin from Stockholm 2016 and are own designed lysostaphin construct are transformed into competent BL21 cells. The transformed cells are plated and incubated overnight at 37 °C.

"
     }
   },
   "Thursday September 13, 2018":{
     "Adhesin":{
"html":"

Gel washing experiment

The dextran hydrogels seem to have degraded overnight. Therefore we did not have any hydrogels to continue the experiments with. This was probably due to the vigorous shaking within the Erlenmeyer’s at 250 RPM.

"
     },
     "cloning":{
"html":"

SDS PAGE

Loaded the same samples as yesterday only this time 2 μL for the pellets instead of 5.

Still no clear expression was visible. But there were darker bands visible in the higher concentrations of inducers.

HlyA + HlyB/D (TetO) induction

These experiments were performed to find the optimal ATC inducer concentration. The concentrations ATC ranged from 0.0001 µM - 10 µM. Induction failed however, since calcium was forgotten. Construct: pET24a-HlyA + pTetO-HlyB/D

"
     },
     "biobrick":{
"html":"

Colony PCR

Colony PCR is performed of the BL21 cells transformed with lysostaphin. The resulting DNA is analyzed with an agarose gel.

Miniprepping

Cultures with lysostaphin from Stockholm 2016 are miniprepped. The resulting DNA concentration is determined with Nanodrop.

"
     },
     "organiclab":{
"html":"

Synthesis of a new cubic gel with a cavity was started.

"
     }
   },
   "Friday September 14, 2018":{
     "cloning":{
"html":"

SDS PAGE

The goal was to test the expresion and secretion of HlyA with two promotors (pSTV and pTetO). The following constructs were used for this. pET28a-HlyA + pSTV-HlyB/D and pET28a-HlyA + pTetO-HlyB/D. There was clear expression but no clear secretion. This is likely due to calcium not being added.

"
     },
     "organiclab":{
"html":"

The polymerisation reaction of the cavity gel of 18-09-13 was quenched and the gel washed.

"
     }
   },
   "Monday September 17, 2018":{
     "Adhesin":{
"html":"

Making agar plates

Made agar plates in the microwave using 25 g/L LB broth and 15 g/L bacto-agar.

Making cultures for for experiments:

  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.
  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control).
"
     },
     "cloning":{
"html":"

Replenishing solutions

Made 200 mL of Sep 2x YT solution for a better and richer medium used for expression. Also, a 1M arabinose stock solution was made.

Small cultures

Small cultures were prepared for induction. The following constructs were used: pET24a-HlyA + pTetO-HlyB/D and pBAD-Lysostaphin-HlyA-His

"
     },
     "biobrick":{
"html":"

Digestion

Linearized pSB1C3, pBAD-lysostaphin and pBAD-pyocin are digested.

Agarose gel purification

The pSB1C3 is purified with agarose gel purification.

"
     }
   },  "Tuesday September 18, 2018":{
     "Adhesin":{
"html":"

Incubate dextran hydrogels and induce cultures

Each of the 3 cultures (mR15HA, WT15HA, WT15HA (no secretion system)) were induced and four intact dextran hydrogels were added.

"
     },
     "cloning":{
"html":"

Protein induction

An induction was started to check for lysostaphin expression and HlyA secretion via the following constructs: pET24a-HlyA + pTetO-HlyB/D (OD of 0.5) and pBAD-Lysostaphin-HlyA-His 3 (OD of 0.8). The following inducer concentrations were used:

  • arabinose (0.1 mM; 1 mM; 10 mM).
  • IPTG (0.2 mM).
  • Calcium (5 mM).
  • ATC (0.001 μM; 0.01 μM; 0.1 μM; 1 μM; 2 μM; 10 μM).
"
     },
     "biobrick":{
"html":"

Ligation and transformation

The pBAD-lysostaphin and pBAD-pyocin are ligated into the pSB1C3 plasmid. Then, competent NovaBlue cells are transformed with these plasmids. The transformed cells are plated on plates with chloramphenicol and incubated overnight at 37 °C.

"
     },
     "organiclab":{
"html":"

New PDMS molds were ordered to upskill the cavity gel synthesis.

"
     }
   },
   "Wednesday September 19, 2018":{
     "Adhesin":{
"html":"

Gel washing experiment

Performed the Gel washing experiment (see iGEM Eindhoven protocols), with 3 different bacteria present in hydrogels and 3 conditions in total.

"
     },
     "cloning":{
"html":"

SDS PAGE

Small band visible that showed HlyA secretion, but still no clear overexpression of Lysostaphin.

"
     },
     "biobrick":{
"html":"

Continue incubation of plates

The plates with lysostaphin and pyocin bacteria are incubated one more day because in order to allow the colonies to grow larger.

"
     }
   },
   "Thursday September 20, 2018":{
     "Adhesin":{
"html":"

Experimenting with dextran hydrogel and bacteria

The plates from yesterday were analysed and a cell count was done.

Gel cavity experiment

Performed a variant of the gel cavity experiment as described by iGEM Eindhoven protocols. This time, tris buffer (10 mM tris pH 9, 150 mM NaCl, 5 mM CaCl) was used and no IPTG was added in the medium. Also the gels were not soaked in LB or any other nutrient buffer.

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     }
   },
   "Friday September 21, 2018":{
     "Adhesin":{
"html":"

Gel cavity experiment

Took a sample of the experiment that was set up yesterday (see iGEM Eindhoven protocols).

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "organiclab":{
"html":"

The new PDMS (4x) molds were ready and we could pick them up.

"
     }
   },
   "Monday September 24, 2018":{
     "Adhesin":{
"html":"

Making cultures for for experiments:

  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.
  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control).
"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Gel purification

T7-Lysostaphin is purified on an agarose gel.

Miniprepping

Miniprep the PET vector. Measure the DNA concentration with nanodrop.

"
     },
     "organiclab":{
"html":"

Synthesis of 5 new cubic gels with a cavity was started.

"
     }
   },
   "Tuesday September 25, 2018":{
     "Adhesin":{
"html":"

Induce cultures

Each of the 3 cultures (mR15HA, WT15HA, WT15HA (no secretion system)) were induced.

Gel cavity experiment

Performed a variant of the gel cavity experiment as described by iGEM Eindhoven protocols. This time, miliQ salt buffer (150 mM NaCl, 5 mM CaCl) was used and no IPTG was added in the medium. Also the gels were not soaked in LB or any other nutrient buffer. Older cultures of mR15HA and WT15HA were used.

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Digestion

The PET vector and T7-lysostaphin are digested with NdeI and SacI.

"
     },
     "organiclab":{
"html":"

The polymerisation reaction of the cavity gels of 18-09-24 was quenched and the gel washed.

>"
     }
   },
   "Wednesday September 26, 2018":{
     "Adhesin":{
"html":"

Gel cavity experiment

Took a sample of the experiment that was set up yesterday (see iGEM Eindhoven protocols).

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Gel purification PET vector

The PET vector is purified with agarose gel purification.

Digestion

The pSB1C3 and T7-lysostaphin are digested with EcoRI and PstI.

Ligation and transformation

Digested T7-lysostaphin is ligated into PET and pSB1C3 vectors. These plasmids are used for transformation of competent NovaBlue cells. The cells are plated and incubated overnight at 37 °C.

"
     }
   },
   "Thursday September 27, 2018":{
     "Adhesin":{
"html":"

Gel cavity experiment

Took a sample of the experiment that was set up two days ago (see iGEM Eindhoven protocols).

Gel cavity experiment

Performed a variant of the gel cavity experiment as described by iGEM Eindhoven protocols. This time, miliQ salt buffer (150 mM NaCl, 5 mM CaCl) was used and no IPTG was added in the medium. Also the gels were not soaked in LB or any other nutrient buffer. New cultures of mR15HA and WT15HA were used.

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Sequencing

Samples of Pyocin and lysostaphin from Stockholm 2016 are prepared for sequencing.

Colony PCR

Colony PCR is performed of the colonies from September. The resulting DNA is analyzed with an agarose gel.

"
     },
     "organiclab":{
"html":"

Synthesis of 5 new cubic gels with a cavity was started.

"
     }
   },
   "Friday September 28, 2018":{
     "Adhesin":{
"html":"

Gel cavity experiment

Used the first gel cavity experiment that was set up a week ago and performed the Performed the Gel washing (see iGEM Eindhoven protocols) to see if there were still bacteria within the gel.

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Colony PCR

Colony PCR is performed of the colonies from September 26 with PET-T7-lysostaphin. The resulting DNA is analyzed with an agarose gel.

Transformation into NovaBlue

The transformation of September 26 was repeated.

"
     },
     "organiclab":{
"html":"

The polymerisation reaction of the cavity gels of 18-09-27 was quenched and the gel washed.

"
     }
   },
   "Monday October 1, 2018":{
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Colony PCR

Colony PCR of T7-lysostaphin in the pET 24a vector is performed.

"
     },
     "organiclab":{
"html":"

Synthesis of new cube dextran hydrogels with a cavity and dextran hydrogel patches.

"
     }
   },
   "Tuesday October 2, 2018":{
     "Adhesin":{
"html":"

Gel cavity experiment

Performed a variant of the gel cavity experiment as described by iGEM Eindhoven protocols. This time, LB medium containing IPTG and CaCl was used as buffer. Old cultures of mR15HA and WT15HA were used.

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Miniprepping

The pET and T7-lysostaphin in pET vector are miniprepped. Subsequently the pET vector is digested with NdeI and SacI.

Ligation and transformation

T7-lysostaphin in the pET 24a vector is transformed into competent NovaBlue cells. The T7-lysostaphin in the pSB1C3 vector is transformed into competent BL21 cells.

"
     },
     "organiclab":{
"html":"

Synthesis of new cube dextran hydrogels with a cavity. The polymerisation reaction of 18-10-01 was quenched and the gels were washed.

>"
     }
   },
   "Wednesday October 3, 2018":{
     "Adhesin":{
"html":"

Gel cavity experiment

Took a sample of the experiment that was set up yesterday (see iGEM Eindhoven protocols). Performed OD measurement to see if the bacterial content in the medium changed.

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Preparing samples for sequencing

Samples of T7-lysostaphin and Pyocin are prepared for sequencing by BaseClear.

Transformation

The T7-lysostaphin is transformed into Novablue cells and BL21 DE3 cells. The transformed cells are plated on plates with chloramphenicol and incubated overnight at 37 °C.

"
     },
     "organiclab":{
"html":"

Synthesis of new cube dextran hydrogels with a cavity. The polymerisation reaction of 18-10-02 was quenched and the gels were washed.

"
     }
   },
   "Thursday October 4, 2018":{
     "Adhesin":{
"html":"

Gel cavity experiment

Took a sample of the experiment that was set up two days ago (see iGEM Eindhoven protocols). Performed OD measurement to see if the bacterial content in the medium changed.

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Double transformation

Both lysostaphin-HlyA and HlyB/D in the pET vector are transformed into competent BLR cells. The cells are plated and incubated overnight at 37 °C.

"
     },
     "organiclab":{
"html":"

Synthesis of new cube dextran hydrogels with a cavity. The polymerisation reaction of 18-10-03 was quenched and the gels were washed.

"
     }
   },
   "Friday October 5, 2018":{
     "Adhesin":{
"html":"

Making cultures for for experiments:

  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.
  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control).

Fresh transformation with adhesion

A fresh transformation was done using the following plasmids:

  • R1R15HA - SBD adhesin with Kanamycin resistance.
  • PSTV HlyB/D - Secretion system type I with Chloramphenicol resistance

This was done following the iGEM Eindhoven transformation protocol. The double transformation was done once in E. Coli BLR Strain. However the double transformation failed.

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "organiclab":{
"html":"

Synthesis of new cube dextran hydrogels with a cavity. The polymerisation reaction of 18-10-04 was quenched and the gels were washed.

"
     }
   },
   "Monday October 8, 2018":{
     "Adhesin":{
"html":"

Making cultures for for experiments:

  • WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • WT15HA NO SECRETION SYSTEM - Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain, however this bacteria doesn’t have the plasmid to secrete the adhesin.
  • mRII18HA - mRuby Adhesin with 18 repeats of region II and no binding domain (negative control).

Fresh transformation with adhesion

A fresh transformation was done using the following plasmids:

  • R1R15HA - SBD adhesin with Kanamycin resistance.
  • PSTV HlyB/D - Secretion system type I with Chloramphenicol resistance

This was done following the iGEM Eindhoven transformation protocol. The double transformation was done once in E. Coli BLR Strain. However the double transformation failed.

"
     },
     "cloning":{
"html":"

Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

"
     },
     "biobrick":{
"html":"

Shipping

Miniprepped samples of the constructs to be shipped are added to a 96-wells plate. The plate is dried overnight in a fumehood.

"
     },
     "organiclab":{
"html":"

Synthesis of new cube dextran hydrogels with a cavity. The polymerisation reaction of 18-10-05 was quenched and the gels were washed.

"
     }
   },
   "Tuesday October 9, 2018":{
     "Adhesin":{
"html":"

Making cultures for for experiments:

  • <b?HlyA +BD</b>Type 1 secretion system only. Only control so far with no adhesin at all.
  • Freshly transformed WT15HA – Wild type N-terminus (anchor) with 15 repeats of region II and a binding domain.
  • </ul>

    Gel cavity experiment

    Performed the gel cavity experiment as described by iGEM Eindhoven protocols. This time, LB medium containing IPTG and CaCl was used as buffer. This experiment was done twice. Once for cultures of induced WT15HA and uninduced WT15HA were used. For the second experiment cultures of induced WT15HA and induced HlyA +BD were used.

    Gel cavity experiment

    Took a sample of the experiment that was set today after a few hours (see iGEM Eindhoven protocols).

    "
         },
         "cloning":{
    
    "html":"

    Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

    "
         },
         "biobrick":{
    
    "html":"

    Shipping

    The constructs are shipped in the 96-wells plate to the iGEM headquarters.

    Overnight induction of T7-lysostaphin-HlyA

    Cells with T7-lysostaphin-HlyA are induced with IPTG.

    "
         },
         "organiclab":{
    
    "html":"

    Synthesis of new cube dextran hydrogels with a cavity. The polymerisation reaction of 18-10-08 was quenched and the gels were washed. additionally, new PDMS molds were ordered to further opskill the cavity gel synthesis.

    "
         }
       },
       "Wednesday October 10, 2018":{
         "Adhesin":{
    
    "html":"

    Gel cavity experiment

    Performed the gel cavity experiment as described by iGEM Eindhoven protocols. This time, LB medium containing IPTG and CaCl was used as buffer. This experiment was done twice. Cultures of induced WT15HA and induced HlyA +BD were used. This experiment was done in triplo.

    Gel cavity experiment

    Took a sample of the experiment that was set up yesterday (see iGEM Eindhoven protocols).

    "
         },
         "cloning":{
    
    "html":"

    Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

    "
         },
         "biobrick":{
    
    "html":"

    Colony PCR

    Colonies with the sugar binding domain, lysostaphin-HlyA, pyocin-HlyA and pBAD-pyosin-HlyA in pSB1C3 are analyzed with colony PCR. The amplified DNA is analyzed on an agarose gel.

    Preparing samples for sequencing

    Samples for sequencing are prepared with pSB1C3 plasmids with sugar binding domain, lysostaphin-HlyA, pyocin-HlyA and pBAD-pyosin-HlyA.

    Ligation and transformation T7-lysostaphin

    The T7-lysostaphin in pTET 24a is transformed into BLR cells. The transformed cells are plated and incubated overnight at 37 °C.

    "
         },
         "organiclab":{
    
    "html":"

    Synthesis of new cube dextran hydrogels with a cavity. The polymerisation reaction of 18-10-09 was quenched and the gels were washed.

    "
         }
       },
       "Thursday October 11, 2018":{
         "Adhesin":{
    
    "html":"

    Gel cavity experiment

    Took samples of the experiments that were set up 2 days ago and yesterday (see iGEM Eindhoven protocols).

    "
         },
         "cloning":{
    
    "html":"

    Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

    "
         },
         "organiclab":{
    
    "html":"

    Received 8 new PDMS molds for upscaling the synthesis of the cube dextran hydrogels with a cavity.

    "
         }
       },
       "Friday October 12, 2018":{
         "Adhesin":{
    
    "html":"

    Gel cavity experiment

    Took samples of the experiments that were set up a few days ago (see iGEM Eindhoven protocols).

    "
         },
         "cloning":{
    
    "html":"

    Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

    "
         },
         "organiclab":{
    
    "html":"

    Synthesis of new cube-shaped dextran hydrogels with a cavity.

    "
         }
       },
       "Monday October 15, 2018":{
         "cloning":{
    
    "html":"

    Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

    "
         },
         "organiclab":{
    
    "html":"

    The polymerisation reaction of 18-10-12 was quenched and the gels were washed.

    "
         }
       },
       "2018.03.13":{
         "Adhesin":{
    
    "html":"

    Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

    "
         },
         "cloning":{
    
    "html":"

    Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

    "
         },
         "biobrick":{
    
    "html":"

    Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

    "
         },
         "organiclab":{
    
    "html":"

    Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.

    "
         }
       }
     }