Team:Marburg:Project:Notebook:June

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Notebook: June

02.06.2014

13.56 Make Gly Stocks of the following strains

Aim: Have gly stocks

  • Dh5a pRSII426 –hGRa
  • Dh5a piGEM010 (p003 + Tag 21)
  • Dh5a piGEM015 (p004 + Tag 23)
  • Dh5a piGEM014 (p003 + Tag 22)
  • Dh5a piGEM008 (p002 + Tag 22)
  • Dh5a piGEM007 (p002 + Tag 21)
  • Dh5a piGEM011 (p003 + Tag 22)
  • Dh5a piGEM012 (p003 + Tag 23)
13.57 Mini Prep of cultures inoculated on Friday 30.5. Nose Plasmids
  • piGEM010 = 22ng/µl
  • piGEM013 = 46 ng/µl
  • piGEM 009 = 13 ng/µl

low concentration: new transformation to gain more plasmid DNA
Strain: new competent E. coli XL1-blue

15.50 Miniprep of pMAD-fla-cup1-1 for miniprep

The miniprep was performed accoding to the miniprep protocol.

Concentration 40 ng/µL
low concentration: new transformation to gain more plasmid DNA should be done
Strain: new competent E. coli XL1-blue

13.58 Bacillus Trafo with all Nose Plasmids containing one/no Degradation Tag

Aim: Create Bacillus subtilis strain 3610 containing the following plasmids: piGEM002 to 004 and piGEM007 to 016

Add 5µl plasmid DNA and incubate for 30 min at 37°C, LB plate with 5 ng/µL Cm (prepared freshly)

13.59 Inoculation of Bacillus subtilis wildtype (3610), gfp (186) and silver nose

Aim: Aim: MTA tomorrow to check out what concentrations of Ag+ are still okay for the cells to survive, since 1mM until 10µM was too high and the cells died

Starting from 1 mM 8 dilutions have been prepared

14.38 Purification of PheA-Arc1p-C-1x

Aim: Purify PheA-Arc1p-C-1x in three steps

The resuspended cells from 14.37 were lysed using a french press. The lysate was incubated on ice with 5 µg/mL DNAseA and RNAseI for 10 min and centrifuged (27000 rpm, 45 min, 4 °C) to pellet cell debris. The supernatant was filtered (0.45 µm) and PheA-Arc1p-C-1x purified from the cleared solution by NiNTA affinity chromatography. The combined elution fractions containing crude PheA-Arc1p-C-1x were concentrated to a volume of 2 mL and further purified using an anion exchange column to get rid of possible tRNA contaminations. Finally the buffer was changed to dialysis buffer and the protein concentrated and stored at -80 °C in aliquods for further use.

18.1 Tumor Terminator - Dilution of Plasmid

Aim: Creating a stock solution

We received the synthetized DARPin-gene in a pEC-A2 vector with spe1 restriction sites at the 5’- and 3’-site at an amount of 2,7µg plasmid in the tube.

A stock solution was created by adding 27µl water to the tube.

Concentration of stock solution = 100 ng/µl

A 1:10 dilution was created by using 1µl of stock solution adding 9µL of water to an end concentration of 10ng/µl.

Concentration of stock dilution = 10 ng/µl.

18.2 Transformation of DARPin-gene in plasmid into E.Coli XL1-Blue

Aim: Transforming pEX-A2 plasmid with DARPin-gene into E.Coli for amplification of the Gene.

1µl of the 1:10 stock dilution were used for transformation of E. Coli XL1-Blue

03.06.2014

18.3 Miniprep of DARPin-gene in plasmid in E.Coli XL1-Blue

Aim: Receiving a higher amount of plasmid for further experiments.

3 x6ml LB-Amp were inoculated with clones from the successful transformed plate (18.2) and incubated at 37°C overnight.

13.60 Microtiter plate assay with wildtype, gfp strain 186 and silver nose

Aim: MTA tomorrow to check out what concentrations of Ag+ are still okay for the cells to survive, since 1mM until 10 µM was too high and the cells died

Starting from 1 mM 8 dilutions have been prepared.
In the beginning Minimalmedium S750 has been prepared with 0.5‰ Xylose
In the wells the following mix was added to a total volume of 150 µl:
135µl of MM (90‰) and Silver solution (10‰)
15µl of cells
Finally 70 µl are added to avoid evaporation of the medium

Incubation for appr. 24h at 37°C shaking (Viktor AG Waldminghaus)

13.61 Checking Bacillus Trafo with all Nose Plasmids containing one/no Degradation Tag

Every transformation plate showed a huge growth of bacillus without single colonies. After one day of incubation this seems to be an unrealistic growth which is why we plan to repeat the transformation after checking the growth of the Bacillus subtilis Wildtype 3610 on LB-CM plate with 5 µg/ml CM.

13.62 Checking Bacillus Trafo Wildtype 3610

Aim: check if wildtype has a resistance against CM or if the plates are not effective/ made wrong

Bacillus subtilis Wildtype 3610 was plated on LB-CM plate with 5 µg/ml CM and incubated overnight at 37°C.

15.51 Making selection plates for clean deletions – integration of pMAD-construct into Bacillus subtilis chromosome

Aim: For the integration of the constructs we cloned into pMAD many steps of a special selection are necessary. For the protocoll we received from Florian Altegoer MLS and MLS X-gal plates have to be used.

Antibiotics and chemicals:

  • Erythromycin 4 mg/ml
  • Lincomycin 25mg/ml
  • X-Gal 100mg/ml

For MLS selection plates Erythromycin with 1mg/ml were needed. Therefore the 4 mg/mL stock solution was diluted 1:4 by mixing 400 µl Eryhtomycin with 1200 µl of 70° ethanol.

3 types of plates were made:

  • 1. MLS selectin: 800 mL LB agar + 800 µl Eryhtromycin + 800 µl Lincomycin
  • 2. MLS X-Gal: 800 mL LB agar + 800 µl Eryhtromycin + 800 µl Lincomycin + 800 µl X-Gal
  • 3. X-Gal: 800 mL LB agar + 800 µL X-Gal

About 120 plates were stored at the 4°C room at AG Graumann labs.

04.06.2014

18.4 Miniprep of DARPin-gene in plasmid in E.Coli XL1-Blue
Plasmid pEX-A2 + DARPinEc1 Concentration after prep (ng/µl)
Clone 1 398,7
Clone 2 340
Clone 3 309
15.52 Sequencing pMAD-fla-cup1-1

Aim: Checking the correct insertion of the metallothionein-domain into the hag –flank construct

Making a pre-mix for Eurofins MWG prepairing the sequencing. Primers from Florian Altegoer were used:

  • Flo83- Hag11_fw 1:10 with 1µl primer and 9µl water
  • Flo86- Hag12_rv 1:10 with 1µl primer and 9µl water
  Pre-mix 1 (µL) Pre-mix 2 (µL)
piGEM-016 pMAD-cup1-1
40ng/µL
10 10
Flo83- Hag11_fw 2 -
Flo86- Hag12_rv - 2
Total Volume 12 12

Label Pre-mix 1 Primer
AGB0023375 Pre-mix 1 Flo83 – Hag11_fw
AGB0023374 Pre-mix 1 Flo86 - Hag12_rv
13.62 Checking Bacillus Trafo Wildtype 3610

Aim: check if wildtype has a resistance against CM or if the plates are not effective/ made wrong

Result: Bacillus subtilis Wildtype 3610 grew on the CM plate which shows us that there has to be a mistake in making the LB-CM plates or the WT has a resistance.

In order to exclude the false making of plates new ones were made with new CM-stocks with 25 mg/ml and 5 mg/ml.

3 aliquots of competent B.s. WT3610 were plated on new LB-CM plates and incubated at 37°C.

18.5 Spe1 restriction of DARPin-gene in pEX-A2 & pMAD-hag-flank (piGEM-005)

Aim: Receiving iGEM-005 as linearized vector for cloning the DARPin gene with Spe1 sites into pMAD-fla (iGEM-005)

Restriction pEX-A2-DARPin digest (µl) pMAD-Hag-Flank digest (µl) Spe1-Mastermix
pEX-A2+DARPin (398 µg/µL) 15 = ca. 6µg - -
pMAD-Fla (114 µg/µL) - 10= ca. 1,14 µg -
SpeI - - 1,5
CutSmart-Buffer (10x) - - 2
H2O - - 16,5
Mastermix 5 10 -
Total 20 20 20

Incubation at 37°C for 2h and heat shock at 81°C for 5 min. After that the pMAD-Hag-Flank-Construct was purified with the OMEGA gel extraction kit according to the protocol.

c(digested piGEM-005)= 4 ng/µl

13.62 Checking Bacillus Trafo Wildtype 3610

Aim: check if wildtype has a resistance against CM or if the plates are not effective/ made wrong

Result: Bacillus subtilis Wildtype 3610 grew on the CM plate. We have already repeated making plates so it might be that the WT has got a resistance while making it competent. New WT from Florian Altegoer was plated on 2 CM plates with 5µg/µL (old and new one) and 2x LB plates from gly stocks.

Incubation at 37°C overnight.

14.39 Creating PheA-Arc1p-C-0x

Aim: Using Round-the-horn mutagenesis to create PheA-Arc1p-C-0x-pET28a

The PCR with 5' phosphorylated TG_0xGSSG FP und TG_0xGSSG RP should generate the 7491 bp fragment for ligation from the methylated template PheA-Arc1p-C-8x-pET28a from 14.5.

The used Primer concentration was 1 µM, the concentration of the template was 1 ng/µL and we used a hot start to avoid unspecific annealing of primers.

Content Volume [µL]
Water 29.5
5x GC Buffer 10
DMSO 2.5
TG_0xGSSG FP 2.5
TG_0xGSSG RP 2.5
PheA-Arc1p-C-8x-pET28a 1
dNTPs 1
Phusion-Polymerase 1
Total Volume 50

Step Temperature [°C] Time [min:sec]
1 98 2:00
2 add Polymerase  
3 98 0:10
4 67.5 0:30
5 72 4:00
6 go to 3 32x
7 72 10:00
8 4 hold

The amplified fragment was purified on an agarose gel on which it showed the correct size. The extracted linear template was then digested to degrade the original unmutated plasmid using DpnI.

Content Volume [µL]
10x CutSmart Buffer 3.6
Plasmid 30
DpnI 3
Total Volume 36.6

The reaction mixture was incubated at 37 °C and 300 rpm for 1 h and afterwards heated to 80 °C for 20 min.

In order to create the circular plasmid 100 ng of the linear template were mixed with 1 µL 10x T4-Ligasebuffer, 1 µL T4-Ligase and water to give a total volume of 10 µL. This mixture was incubated for 9 h at 16 °C. The resulting plasmid was dialysed with water to decrease the salt concentration for the following transformation of E. coli Top10 electrocompetent cells with the plasmid.

06.06.2014

19. Crystallization of flagellin

In order to cristallize flagellin with a domain it is necessary to produce the protein by E.Coli in a high concentration. For that aim the Fla-construct will be amplificated out of pet24d which includes a domain. For elimination of the flanks a PCR has to be perfomed which just amplificates Hag with Domain and creates Nco1 and BamH1 restriction sites. After purification and digest with Nco/Bam the fragment can be ligated into Nco/Bam digested pet24d . After transformation the synthesis can be induced by IPTG.

19.1 Eliminiation of flanks from Fla-construct including cup1-1out of pet24d

Aim: Preparation for using pet24d as expression vector for flagellin

The flagellin construct was amplificated with Primer 95 and 54 from Florian Altegoer which allow the amplification of the construct with cup1-1 without flanks (just Hag) including Nco1 & BamH1 restriction sites.
Template dilution 1:10:
1µL pet24d-cup1-1 was mixed with 9 µL to an 1:10 dilution of 16,3 ng/µL
Primer dilution 1:10:
Primers 95 & 54 from Florian Altegoer were diluted 1:10 by mixing 10µL of primers with 90µL milipore water each.

Mix [µl] 1 attempt with phusion One attempt with Q5 mastermix
Pet24d-cup1-1
1:10 dilution
1 1
Primer 54Flo 1 1
Primer 56Flo 1 1
Phusion 1 -
Phusion Buffer 5x 10 -
dNTP Mix 1 -
Water 35 22
Q5 Mastermix - 25
Total Volume 50 20

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 2 min
5 Go To 2 30x
6 72 4min
7 8 infinite

PCR was run overnight.

19.2 Restriction digest of pet24d with Nco1 and BamH1

Aim: Creating Nco/ Bam restriction sites in pet24d for cloning PCR fragments amplified with primers flo56 and flo54 which contain Nco/Bam sites as well.

Prepped pet24d was cut with Nco1 and BamH1 in order to create restriction sites for ligating the Flagellin/ Hag-Domain fragments into the vector. The Hag-fragments which were amplified via PCR with primers flo54 and 56 contain Nco1/ BamH1 restriction sites for that purpose as well.

Component Volume [µl]
Pet24d (148 ng/µL) 7
Cutsmart 10x 2
Nco1 0,5
BamH1 0,5
Water 10
Total Volume 20

Incubation for 1h at 37°C and heat shocked at 80°C.

15.52 Miniprep of different plasmids

Aim: Receiving more plasmid DNA for further experiments

Colonies were picked from plates and 8ml LB with necessary antibiotics each inoculated, followed by incubation at 37°C overnight.

Clones were picked from plates with plasmids:

  • Pet24d-Fla-Cup1-1 (piGEM-006)
  • pMAD-Hag-Flank (piGEM-005)
  • pMAD-Hag-Flank -Cup1-1 (piGEM-016)
  • pEX-A2+DARPin (piGEM-017)

07.062014

15.53 Sequencing pMAD-fla-cup1-1

The sequencing showed the correct insertion of the cup-1-1 gene into the hag-flank construct but contained a stop codon which was not removed by the used reverse primer. Unfortunately we used primers for amplification of the whole cup1-1 gene and not just for the truncated gene coding for the metallothionein domain only. Therefore new primers had to be designed an the gibson assembly for integration of the metallothionein domain into pMAD and pet24d has to be repeated.

18.6 gel extraction & purification of DARPin gene

Aim: Receiving DARPin gene with spe1 sites for ligation into linearized piGEM-005

The with Spe1 digested pEX-A2 was purified via electrophoresis with an 1% agarose gel in order to divide pEX-A2 backbone and the DARPin gene (489 bp). The digest attempt was splitted and loaded into two pockets to be sure not to overload the gel. The correct bands were cut out and the DNA fragment was rescued according to the protocol of our OMEGA gel extraction kit.

Expected bands:
DARPin gene: 489 bp
pEX-A2 backbone: 1961bp
The concentration after gel extraction: 9 ng/µl

18.7 Ligation of DARPin gene and linearized piGEM-005

Aim: Ligation of DARPin- (from 18.6) into Spe1 cut piGEM-005 from 18.5 for integration of the DARPin-Flagellin construct into Bacillus subtilis chromosome

The DARPin gene with Spe1 sites was used as insert for the ligation into linearized pMAD (from 18.5) which contains the designed Spe1 site. The ligation attempt was done twofold and calculated by the Ligation Calculator from the iGEM-Team Texas in 2011:

Component Volume [µl]
Insert (DARPin, c= 9 ng/µL) 2
Vector (piGEM-005, c=4ng/µL) 10
Ligase-Buffer 10x 2
T4 Ligase 1
Milipore water 5
Total Volume 20

Incubation was performed overnight at room temperature.

13.63 checking Bacillus WT 3610 growth on 5µg/µL CM

Aim: check if wildtype has a resistance against CM

Result: Bacillus subtilis Wildtype 3610 grew on the CM plate.

In order to make out if a selection is possible WT3610 was plated out from an LB plate (13.62)  on 25 ng/ µL CM to check were Bacillus CM threshold is.

Incubation at 30°C over the weekend.

08.06.2014

18.8 new Spe1 restriction of DARPin-gene in pEX-A2 & pMAD-hag-flank (piGEM-005)

Aim: Receiving new insert and vector in case of an unsuccessful ligation for further attempts.

Restriction pEX-A2-DARPin digest (µl) pMAD-Hag-Flank digest (µl) Spe1-Mastermix
pEX-A2+DARPin (398 µg/µL) 10 = ca. 4µg - -
pMAD-Fla (150 µg/µL) - 7= ca. 1 µg -
SpeI - - 1
CutSmart-Buffer (10x) - - 2,5
Water - - 21,5
Mastermix 10 13 -
Total Volume 20 20 25

Incubation was performed for 2h at 37°C and heat inactivated at 80°C for 5 minutes.

18.9 Transformation of overnight ligation from 18.7

The whole 20µL attempt from the overnight ligations were transformed into E.Coli XL1-Blue and plated on LB-Amp plates.  Additionally a negative control was created by transforming 1µL Spe1 cut piGEM-005 into E.Coli XL1-Blue as well.

18.10 Gel extraction for isolation of DARPin gene out of pEX-A2

Aim: Receiving new insert in case of an unsuccessful ligation for further attempts like in 18.6

The with Spe1 digested pEX-A2 was purified via electrophoresis with an 1% agarose gel like in 18.6. The band correct bands were cut out and the DNA fragment was rescued according to the protocol of our OMEGA gel extraction kit.

Expected bands:
DARPin gene: 489 bp
pEX-A2 backbone: 1961bp
The concentration after gel extraction: 10 ng/µl

09.06.2014

18.12 Checking Transformation of overnight ligation from 18.7
Plate Amount of colonies
Negative control 6
Ligation attempt 1 7
Ligation attempt 2 0
18.13 Checking success of ligation via cPCR

Aim: A cPCR with the primers 54 and 56 shows the success of ligation by amplification of the Hag-construct.

In order to check the positive insertion of the DARPin gene into pMAD a PCR amplification with primers 54 and 56 for the flagellin should generate an ca. 1500 bp fragment on the gel. Negative clones would show still just a 1000 bp band because of the amplification of the Hag-Spe1 site construct. The picked clones were transferred on a new LB-amp plate.

Mix Master-Mix for 7 attempts (µL) Mix for PCR attempt (µL)
Colony - part of a colony
Primer Flo 54 3,5 -
Primer Flo 56 3,5 -
Phusion 7 -
Phusion Buffer 5x 28 -
dNTP Mix 3,5 -
Water 94,5 -
Mastermix - 20
Total Volume 140 20

Expected bands:
Hag-DARPin-construct: ca. 1500 bp

The gel shows bands at 1000 which means that the clones contain just relegated pMAD vector and are all negative. The ligation had to be repeated.

18.14 Dephosphorylation of linearized piGEM-005

Aim: Dephosphorylation of 5’-end with antarctic phosphatase in order to decrease the religation of the linearized piGEM-005 from 18.8

The cut Spe1 cut piGEM-005 was dephosporylated at the 5’-end with Antarctic phosphatase to prevent the vector from relegation.

Component Volume [µl]
Vector (piGEM-005, c=148 ng/µL) 20 (=ca. 2 µg)
Antarctic phos.-Buffer 10x 3
Antarctic phosphatase 1
Milipore Water 6
Total Volume 30

The sample was incubated for 1h at 37°C at heat inactivated at 70°C for 10minutes.

18. new ligation of linearized/ dephosphorylized piGEM-005 & DARPin gene

Aim: Dephosphorylation piGEM-005 was ligated with extracted DARPin gene again

Because of the negative colony PCR from 18.13 a new ligation with dephosphorylized piGEM-005 from 18.14 and new extracted DARPin gene from 18.10 was performed in 2 attempts.

Component Volume [µl]
Insert (DARPin, c= 10 ng/µL) 12,4
Vector (piGEM-005, c= 148 ng/µL) 4,6
Ligase-Buffer 10x 2
T4 Ligase 1
Milipore Water 5
Total Volume 20

Incubation 3h at room temperature

18.16 Transformation of overnight ligation from 18.15

The whole 20µL attempt from the ligations (18.15) were transformed into E.Coli XL1-Blue and plated on LB-Amp plates.  Additionally a negative control was created by transforming 1µL Spe1 cut piGEM-005 into E.Coli XL1-Blue as well.

13.64 checking Bacillus WT 3610 growth on 5, 10 & 15 µg/µL CM

Aim: check if wildtype has a resistance against CM

Result: Bacillus subtilis Wildtype 3610 did not grow on the 25 ng/µLCM plate

In order to check at which concentration CM Bacillus cannot survive he was plated out from an LB plate on LB-CM plates with different CM concentrations (5, 10, 15 ng/mL).

Incubation at 30°C over night.

10.06.2014

18.17 Checking Transformation of ligation from 18.16
Plate Amount of colonies
Negative control 1
Ligation attempt 1 2
Ligation attempt 2 >80
18.18 Checking success of ligation via cPCR

Aim: A cPCR with the primers 54 and 56 shows the success of ligation by amplification of the Hag-construct.

In order to check the positive insertion of the DARPin gene into pMAD a PCR amplification with primers 54 and 56 for the flagellin should generate an ca. 1500 bp fragment on the gel. Negative clones would show still just a 1000 bp band because of the amplification of the Hag-Spe1 site construct. The picked clones were transferred on a new LB-amp plate. 12 clones were picked.

Mix Master-Mix for 14 attempts (µL) Mix for PCR attempt (µL)
Colony - part of a colony
Primer Flo 54 7 -
Primer Flo 56 7 -
Phusion 14 -
Phusion Buffer 5x 56 -
dNTP Mix 7 -
Water 189 -
Mastermix - 20
Total Volume 280 20

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 1min 45sec
4 72 1 min
5 Go To 2 30x
6 72 4min
7 8 infinite

Expected bands:
Hag-DARPin-construct: ca. 1500 bp

Clone 1, 2, 3, 4, 5, 7, 9, 11 and 12 were the positive clones at 1500 bp.

14.40 Overnight culture

Aim: Amplify Plasmid in an overnight culture

Six clones of the transformed Top10 cells from 14.39 were picked and used to inoculate overnight cultures (6 x 5 mL).

18.19 Miniprep of positive clones

Aim: In order to check the orientation of the positive clones minipreps were inoculated for further experiments

Because of the ligation via 2 Spe1 sites the chance is 50:50 that the clones contain the pMAD-Hag-Flank-DARPin construct in the right orientation (Startcodon on the Hag1-site). For test digests the plasmids have to be amplified by minipreps.

The clones were used to inoculate 7 mL LB-Amp and incubated at 37°C Overnight.

13.64 checking Bacillus WT 3610 growth on 25 & 35 µg/µL CM

Aim: check if wildtype has a resistance against CM

Result: Bacillus subtilis Wildtype 3610 grew on the 5, 10 & 15µg//µl LB-CM plate.

We saw that Bacillus grew on almost every CM concentration except 25 µg/µL. So we transformed competent WT3610 with Nose plasmid piGEM-003 as a positive control and plated them out on LB-CM with 25 µg/µL and 35 µg/µL from Daniel Schindler.

Additionally WT from Felix Dempwolff which was made competent was also transformed with piGEM-004 was plated out on LB-CM with 5, 10 and 15 µg/mL CM to check if these cells can be selected better.

Incubation at 30°C for 2 days.

11.06.2014

18.19 Miniprep of positive clones

The concentration of the prepped plasmids was between 100 and 150 ng/µL.

18.20 Test digest with EcoRV

Aim: Checking the right orientation of the prepped plasmids

The plasmids from the positive clones were digested with EcoRV so that specific fragments emerge when cutting into the DARPin gene and the vector backbone.

Component Volume [µl] Mastermix for 10 attempts [µl]
Plasmid of clone 2 (ca. 200ng) -
Cutsmart 10x - 8
EcoRV - 1
Milipore water - 71
Mastermix 8 -
Total Volume 10 80

Right orientation:    7900 – 1570 – 2500 – 55
Wrong orientation: 7900 – 1170 – 2500 – 460

Clone 1, 2, 3, 4, 7, 9 and 11 have the right orientation.

14.41 Preparation of plasmids

Aim: Purify the amplified plasmids from overnight cultures

The plasmids were purified from the overnight cultures created in 14.40 using Sigma GenElute Plasmid Miniprep Kit following the included protocol. The plasmids were eluted using 45 µL water.

12.06.2014

18.21 PCR with pMAD-Hag-Flank-DARPin (piGEM-019) and piGEM-005

Aim: Amplification of Hag-Spe1-construct and Hag-DARPin construct with Nco1/BamH1 sites for cloning into pet24d → crystallization of domains.

The templates (piGEM-005, prepped pasmid from clone 7 & 12 ) were diluted 1:10. piGEM-005 should function as a negative control. Clone 12 was picked in case the second orientation could be used for different experiments. 5 µL PCR product + 1 µL loading dye were analysed on an 1% agarose gel.

Mix Volume
Template 1:10 1
Primer Flo 54 1
Primer Flo 56 1
Phusion 1
Phusion Buffer 5x 10
dNTP Mix 1
Water 35
Total Volume 50

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 1min 45sec
4 72 2 min
5 Go To 2 30x
6 72 4min
7 8 infinite

Expected bands:
 clone 7 & 12 PCR product at ca. 1500bp – piGEM-005 PCR product at 1kb

14.42 Transformation of BL21 cells

Aim: Transform E. coli BL21(DE3) with PheA-Arc1p-C-0x-pET28a

40 µL E. coli BL21(DE3) electrocompetent cells were transformed with 1 ng of the previously purified plasmid PheA-Arc1p-C-0x-pET28a from two different clones, incubated for 1 h at 37 °C and plated out on LB-Kan50 plates that were incubated overnight at 37 °C.

18.22 restriction digest of Hag PCR fragments from 18.21 with Nco1/ BamH1

Aim: creating restriction sites for cloning into pet24d cut with Nco/Bam

The PCR products from 18.21 were digested with Nco1 and BamH1 to create restriction sites in order to ligate the fragments into Nco/Bam cut pet24d.

Component Volume [µl]
PCR products 45
Cutsmart 10x 5,2
Nco1 1
BamH1 1
Water 2,8
Total Volume 52

 Incubation for 2h at 37°C with heat shock at 80°C.

18.23 Ligation of pet24d and Hag PCR fragments from 18.22 cut with Nco/Bam

Aim: cloning inserts into pet24d for crystallization

The Nco/cut Flagellin PCR products from 18.22 (from clone 7 and piGEM-005) were ligated with Nco1 and BamH1 cut pet24d.

Component Pet-Hag attempt (µL) Pet-Hag-DARPin attempt (µL)
Insert (PCR fragments , c= ca. 400 ng/µL) 2 2
Vector (pet24d, c= 50ng/µL) 5 5
Ligase-Buffer 10x 2 2
T4 Ligase 1 1
Milipore Water 10 10
Total Volume 20 20

Incubation overnight at room temperature.

20.2 Transformation of competent Bacillus subtilis

Aim: transformation of plasmid into Bacillus subtilis WT3610

100 µL of overnight culture were added to 10 mL of MNGE-Medium and incubated till an OD of 1,1-1,3 at 37°C which could take 4-5h.

After reaching OD of 1,1-1,3 2 x 400 µL of the culture were transformed with 1,5 µg piGEM-005 and -018. After 1h incubation at 37°C 100 µL Expression mix were added and incubated for 1h as well.

In the end the 500 µL attempt was plated out on MLS-X-Gal plates and incubated at 30 °C overnight until colonies could be seen.

13.06.2014

18.24 Transformation of overnight ligation

Aim: checking success of ligation and amplification of ligated construct

The whole 20µL attempt was transformed into E.Coli X1-Blue, plated out on LB-Can plates and incubated at 37°C overnight.

18.25 Miniprep of pMAD-Hag-Flank-DARPin (piGEM-018)

Aim: Amplification of plasmids for work and storage

2x 6 mL of LB-Amp were inoculated with a colony from apiGEM-018 transformation plate and incubated at 37°C overnight.

18.26 sequencing of constructs

Aim: checking the right insertion into the plasmids

pMAD-Hag-Flank-DARPin and the hormone receptor clone 1 were given away in form of a premix with primers for sequencing. 10 µL with 50-100 ng/µL were mixed with 2 µL of primers for sequencing according to the following scheme:

Premix Label-Nr. Construct Primer
1 391 pMAD-Hag-Flank-DARPin Flo54 (Hag-F-Nco)
2 392 pMAD-Hag-Flank-DARPin Flo56 (Hag-R-Bam)
3 393 pRSGII426+receptor gene TW248
4 394 pRSGII426+receptor gene TW249
13.65 checking Bacillus WT from Felix Dempwolff growth

Aim: check which WT can used for selection with Nose plasmids

Competent WT from Felix Dempwolff was transformed with piGEM-002, -003 and -004 by incubating the aliquods with 5 µL plasmid for 30 min at 37°C. After half an hour the whole attempt was plated out on LB-Cm (5 ng/µL).

Incubation at 30°C for 2 days.

14.06.2014

18.27 miniprep of inoculated plasmids from 18.25

Aim: isolation of plasmids

The miniprep of pMAD-Hag-Flank-DARPin was done according to the protocol of the OMEGA DNA kit.

18.28 pet24d digest with Nco/Bam

Aim: preparing vector for new ligation attempts

Because of the unsuccessful ligation from 18.23 new vector (pet24d) was cut with Nco1 and BamH1 according to the following scheme:

Component Volume [µl]
Pet24d (148 ng/µL) 15
Cutsmart 10x 3
Nco1 0,5
BamH1 0,5
Water 6
Total Volume 30

Incubation at 37°C for 2h.

18.29 Pst1 digest of PCR fragments from piGEM-018 with Hag-primers

Aim: checking if the correct inserts are used for ligation

The DARPin-Hag constructs contain a Pst1 restriction site which could be used to check if the DARPin gene was inserted into the Hag-construct correctly again. For that purpose PCR products based on piGEM-018 from clone 7 and 12 (right and wrong orientation) as a template were cut with Pst1.

PCR products from clone 7: 658 bp and 781 bp fragment.

 PCR products from clone 12:1000bp and 429 bp fragments.

Component Volume [µl]
PCR fragment (350 ng/µL) 3
Cutsmart 10x 1
Pst1 0,5
Water 5,5
Total Volume 10

Incubation at 37°C for 2h.

18.30 PCR amplification of DARPin-Hag and Hag fragment

Aim: amplification of DARPin-Hag fragments for repeating the ligation

piGEM-018 & -005 were used as template for a PCR with the primers from Florian Altegoer 54 and 56. The products could be used for further cloning after Nco/Bam digest.

Mix Volume
Template (piGEM-005 & -018) 1
Primer Flo 54 1
Primer Flo 56 1
Phusion 1
Phusion Buffer 5x 10
dNTP Mix 1
Water 35
Total Volume 50

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 1min 45sec
4 72 2 min
5 Go To 2 30x
6 72 4min
7 8 infinite

The fragments were analysed on an 1% agarose gel.

15.54 new PCR amplification of cup1-1

Aim: amplification of cup1-1 domain for Gibson assembly into pMAD

The cup1-1 domain was amplified via PCR with new primers iGEM-024 and -025. The fragment should be ca. 160 bp.

Mix Volume
Template (cup1-1 gene) 1
Primer iGEM-024 1
Primer iGEM-025 1
Phusion 1
Phusion Buffer 5x 10
dNTP Mix 1
Water 35
Total Volume 50

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 30 sec
5 Go To 2 30x
6 72 4min
7 8 infinite

Referring to the gel analysis the amplification was successful.

15.06.2014

20.3 Overnight culture of blue clones

Aim: transformation of plasmid into Bacillus subtilis WT3610

Colonies were grown on the plates with transformed piGEM-005 & - 018. The blue/ white screening showed positive transformed blue clones.  3 clones of different morphology per plate were picked and used for inoculation of LB-MLS (4 mL LB, 4 µL Lincomycin, 4 µL Erythromycin). Incubation was carried out overnight at 30°C with the 6 cultures.

16.06.2014

14.43 Overnight culture

Aim: Inoculate Overnight culture of PheA-Arc1p-C-0x-pET28a

5 mL of LB-Kan50 medium were inoculated with a clone from 14.42 bearing the PheA-Arc1p-C-0x-pET28a plasmid.

17.06.2014

20.3 First temperature shift

Aim: integration of pMAD-Insert into Bacillus chromosome via flanks

The 6 overnight cultures were used to inoculate 10 mL LB MLS until  the culture obtained an OD of 0,1. The cultures were incubated at 30°C for 2h.

Then the temperature was shifted to 42°C for 6h.

After the heat shock dilutions from 10-4 to 10-6 of each culture were plated out on MLS-X-Gal so that 18 plates could be incubated overnight at 42°C.

15.54 Gibson-assebmly with PCR amplificated cup1-1 and spe1 cut piGEM-005

Aim: insertion of cup1-1 into piGEM-005

The cup1-1 domain was amplified via PCR with new primers iGEM-024 and -025. Vector and template were diluted to a concentration under 75 ng/µL. Spe1 cut piGEM-005 was used from the cloning experiments with DARPin.

PCR fragment cup1-1 (464 ng/µL) dilution 1:10

Spe1 cut pIGEM-005 (148 ng/µL) dilution 1:2

Component Volume [µl]
Gibson-Mix 15
Insert (cup1-1 58 ng/µL) 1,3
piGEM-005 1
Water 2,7
Total Volume 20

The mix was incubated 5 min at room temperature and then for 1h at 50°C.

In the end the whole mix was transformed into E.Coli XL1-Blue and plated out on LB-Amp. Incubation was done overnight at 37°C.

14.44 Test Expression

Aim: Test the expression of PheA-Arc1p-C-0x

Using the preculture from 14.43 60 mL of LB-Kan50 medium were inoculated with 600 µL of the preculture and incubated at 37 °C and 220 rpm until OD600 reached 0.5. The culture was cooled down to 18 °C and the protein production was induced with 12 µL of 500 mM IPTG. Over night the culture was incubated at 18 °C and 220 rpm. Afterwards the cell culture was centrifuged (17000 rpm, 20 min, 4 °C), the pellet resuspended in 3 mL buffer A and stored at -20 °C. A glycerolstock of the strain containing the PheA-Arc1p-C-0x-pET28a plasmid was stored at -80 °C.

18.06.2014

20.4 Second temperature shift

Aim: flip out of the pMAD backbone

One blue colony per diluted clone was used to inoculate 4 mL LB. The 6 cultures were incubated at 30°C for 6h and afterwards for 3h at 42°C.

Dilutions from 10-4­ to 10-6 were plated out on 18 X-Gal plates WITHOUT MLS selection. The positive clones should not contain the resistance inside the backbone as well as the galactosidase. The plates were incubated at 42°C overnight.

15.54 Checking Gibson assembly plate piGEM-005-cup1-1

Aim: insertion of cup1-1 into piGEM-005

Unfortunately the plate was empty, no colonies. The vector was cut newly in order to repeat the assembly.

15.55 restriction digest of piGEM-005 with spe1

Aim: linearizing plasmid for repeating the Gibson assembly

In order to repeat the Gibson assembly the piGEM-005 was cut with spe1 freshly.

Component Volume [µl]
piGEM-005 (108 ng/µL) 10
Cutsmart 10x 2
Spe1 0,5
Water 7,5
Total Volume 20

Incubation 1h at 37°C with following heat shock at 80°C

19.06.2014

20.5 selection of positive clones

Aim: checking the correct flip out of the pMAD backbone

From the dilution plates was one WHITE clone picked and transferred on a Master X-Gal Plate as well as on a MLS plate so that 18 clones were proven for the right integration of the insert although flipping out the pMAD backbone.

The plates were incubated at 42°C overnight.

15.56 new Gibson-assembly with cup1-1 and spe1 cut piGEM-005

Aim: insertion of cup1-1 into piGEM-005

As insert cup1-1 PCR product from 15.55 and Spe1 cut piGEM-005 from 15.55 were used for a new Gibson assembly.

PCR fragment cup1-1 (464 ng/µL)

Spe1 cut pIGEM-005 (53 ng/µL)

Component Volume [µl]
Gibson-Mix 15
Insert (cup1-1 58 ng/µL) 2,5
piGEM-005 2,5
Total Volume 20

The mix was incubated 5 min at room temperature and then for 1h at 50°C.

In the end the whole mix was transformed into E.Coli XL1-Blue and plated out on LB-Amp. Incubation was done overnight at 37°C.

20.06.2014

20.5 selection of positive clones

Aim: checking the correct flip out of the pMAD backbone

The white colonies grew on the X-Gal Master plates but not on MLS plates so the transformation seemed to be successful. The Backbone with the MLS resistance flipped out of the genome

20. 6 cPCR with checked clones

Aim: checking integration of constructs Hag-Spe and Hag-Spe-DARPin into B. s. genome

No clone was growing on MLS plates so the picked clones seemed to be positive. In order to check the correct integration of the domain constructs a cPCR with the picked clones on the X-Gal plates was done. The picked 18 B.s. clones were cooked in 10 µL PBS for 5 min at 95°C.

Mix Master-Mix for 18 attempts (µL) Mix for PCR attempt (µL)
Colony (picked clones 1-9 from Flagellin/-DARPin B.s. plates) - Part of a cooked colony
Primer Flo54 Hag-fw 9 -
Primer Flo56 Hag-rv 9 -
Phusion 18 -
Phusion Buffer 5x 72 -
dNTP Mix 9 -
Water 237 -
DMSO 6 -
Mastermix - 20
Total Volume 100 360

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 1 min 45 sec
4 72 2 min
5 Go To 2 30x
6 72 4min
7 8 infinite

The gel showed no bands. The PCR had to be repeated.

15.57 Miniprep of clones from Gibson assembly from 15.56

Aim: Plasmid amplification for further experiments

4x 5 mL of LB-Amp was were inoculated with a picked colony from a transformation plate with XL1-Blue containing the Gibson-Assembly product from 15.56.

Incubation at 37°C overnight.

21.06.2014

15.58 cPCR with colonies from Gibson piGEM-005 + cup1-1 plate

Aim: checking correct insertion of cup1-1

In order to check the correct insertion of the cup1-1 domain into the Hag-Flank-construct in pMAD a cPCR with primers iGEM-025 (Cup1-1 rv) and Flo89 (pMAD-flank1-Bamh1 fw) was performed. The picked colonies were the same which wre used to inoculate minipreps from 15.57. The fragment was supposed to e ca. 1250 bp.

Mix Master-Mix for 5 attempts (µL) Mix for PCR attempt (µL)
Colony (picked clones 1-4 for miniprep) - Part of a colony
Primer Flo89 2,5 -
Primer piGEM-025 2,5 -
Phusion 2,5 -
Phusion Buffer 5x 20 -
dNTP Mix 2,5 -
Water 70 -
Mastermix - 20
Total Volume 100 20

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 30 sec
5 Go To 2 30x
6 72 4min
7 8 infinite

The analysis via 1% agarose gel eletrophoresis showed now bands. All 4 picked clones were prepped to use the plasmid as template.

15.59 PCR with prepped plasmid from Gibson piGEM-005 + cup1-1 plate

Aim: checking correct insertion of cup1-1

This time the prepped plasmid DNA from the picked 6clones was used as a template with different primer pairs. First of all tie PCR attempts were performed with primers Flo89 and Flo90 in order to receive the whole Hag-Flank-Cup1-1 construct with ca. 2100 bp length. As negative control also piGEM-005 was used as template producing a 2000kb fragment. Because of the small difference all 6 attempts were also driven with the primers Flo89 and iGEM-025 (cup1-1 rv) in order to check the insertion of cup1-1 directly with a fragment of 1268 bp.

Mix Master-Mix 1 for  5 attempts (µL) Master-Mix 2 for  5 attempts (µL) Mix 1 for PCR attempt (µL) Mix 2for PCR attempt (µL)
Plasmid DNA from clone 1-4/ piGEM-005 - - 1 -
Primer Flo89 2,5 2,5 - -
Primer Flo90 2,5 - - -
Primer piGEM-025 - 2,5 - -
Phusion 2,5 2,5 - -
Phusion Buffer 5x 20 20 - -
dNTP-mix 2,5 2,5 - -
Water 70 70 - -
Master-Mix 1/ 2 - - 20 20
Total Volume 100 100 20 20

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 20 sec
5 Go To 2 30x
6 72 4min
7 8 infinite

The gel analysis shows that all 4 clones seem to be positive. By amplification of the cup1-1 fragment with the plasmid DNA as template could proof that.

20. 6 repeating cPCR with checked clones

Aim: checking integration of constructs Hag-Spe and Hag-Spe-DARPin into B. s. genome

Because of the unsuccessful cPCR before the PCR was repeated. The picked 18 B.s. clones were cooked in 30 µL PBS for 10 min at 95°C.

Mix Master-Mix for 18 attempts (µL) Mix for PCR attempt (µL)
Colony (picked clones 1-9 from Flagellin/-DARPin B.s. plates) - Part of a cooked colony
Primer Flo54 Hag-fw 9 -
Primer Flo56 Hag-rv 9 -
Phusion 18 -
Phusion Buffer 5x 72 -
dNTP Mix 9 -
Water 237 -
DMSO 6 -
Mastermix - 20
Total Volume 100 360

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 1 min 45 sec
4 72 2 min
5 Go To 2 30x
6 72 4min
7 8 infinite

20. 6 repeating cPCR with checked clones

The clones with piGEM-005 seem to be positive all 9. Clone 1, 3, 7, 8 and 9 of transformed piGEM-018.1 might be positive as well as clone 2-6 from piGEM-018.2. The sequencing of the PCR products should tell us if the insertion was successful.

22.06.2014

18.31 PCR amplification of DARPin-Hag and Hag fragment

Aim: amplification of DARPin-Hag fragments for repeating the ligation

piGEM-018 & -005 were used as template for a PCR with the primers from Florian Altegoer 54 and 56. The products could be used for further cloning after Nco/Bam digest.

Content Volume [µl]
Template (piGEM-005 & -018) 1
Primer Flo 54 1
Primer Flo 56 1
Phusion 1
Phusion Buffer 5x 10
dNTP Mix 1
Water 35
Total Volume 50

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 45 sec
5 Go To 2 30x
6 72 4min
7 8 infinite
18.32 cPCR with new clones

Aim: checking picked clones for correct Hag/ Hag-DARPin insert in pet24d

more clones from each plate were picked to analyse them via cPCR with the primers flo54 and flo56 (Hag-fw and Hag-rv). The result should be a ca. 1kb fragment for correct pet24d-Hag containing clones and a 1,5 kb fragment for pet24d-Hag-DARPin containing clones.

Content Volume (µL) MM for 14 attempts (µL

Colony

 (8-15 from pet-Hag,7-14 from pet-Hag-DARPin)
1 colony -
Primer Flo 54 - 7
Primer Flo 56 - 7
Phusion - 7
Phusion Buffer 5x - 56
dNTP Mix - 7
Water - 196
Mastermix 20 -
Total Volume 20 280

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 45 sec
5 Go To 2 30x
6 72 4min
7 8 infinite
18.33 pet24d digest with Nco/Bam

Aim: preparing vector for new ligation attempts

Because of the low amount of right clones new vector (pet24d) was cut with Nco1 and BamH1 according to the following scheme:

Component Volume (µL)
Pet24d (50 ng/µL) 20
Cutsmart 10x 3
Nco1 0,5
BamH1 0,5
Water 6
Total Volume 30

Incubation at 37°C for 2h with heat shock in the end at 80°C

Endconcentration: 32 ng/µL

18.34 restriction digest of Hag PCR fragments from 18.31 with Nco1/ BamH1

Aim: creating restriction sites for cloning into pet24d cut with Nco/Bam

The PCR products from 18.x were digested with Nco1 and BamH1 to create restriction sites in order to ligate the fragments into Nco/Bam cut pet24d in case of negative clones refering to the cPCR from 18.x

Component PCR Hag-fragment (µL) PCR Hag-DARPin fragment (µL)
PCR products 45 45
Cutsmart 10x 5,2 5,2
Nco1 0,5 0,5
BamH1 0,5 0,5
Water 3,8 3,8
Total Volume 52 52

Incubation for 2h at 37°C with heat shock at 80°C.

Endconcentration:
digested Hag-fragment 260 ng/µL
digested Hag-fragment 268 ng/µL

15.60 PCR pMAD-Hag-Flank-cup1-1 (piGEM-016)

Aim: checking success of Gibson assembly with pMAD-Hag-Flank and cup1-1

Using the plasmids as template the cup1-1 fragment at 160 bp should be visible on the agarose gel. As positive control PCR products from the cup1-1 amplification used for the Gibson Assembly into piGEM-005 were applicated on the gel as well.

Content Volume (µL) MM for 5 attempts (µL)
Template (Plasmid from clone 1-4) 0,5 -
Primer iGEM-024 - 2,5
Primer iGEM-025 - 2,5
Phusion - 2,5
Phusion Buffer 5x - 20
dNTP Mix - 2,5
Water - 70
Mastermix 19,5 -
Total Volume 20 100

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 20 sec
5 Go To 2 30x
6 72 4min
7 8 infinite

The bands under the 200 bp mark indicate the positive insertion of cup1-1 into piGEM-005. The plasmid has to be sequenced and is named iGEM-016.

18.35 test digest with Nco/Bam – Checking insertion of Hag/-DARPin into pet24d

Aim: proving insertion of Hag/-DARPin fragment into pet24d

The plasmids are digested with Nco1 and BamH1. In case of a correct insertion the pet24d backbone and the insert should be seen on the gel at 5300 bp and 1000/ 1500 bp. As control Pet24d-Hag-Flank (piGEM-001) is used to check the mastermix.

Component Volume (µl) Mastermix
2x Plasmid from clone 6 5 -
Cutsmart 10x - 5
Nco1 - 0,5
BamH1 - 0,5
Water - 19
Total Volume 10 25
18.36 ligation of pet24d and PCR Hag/ Hag-DARPin fragments cut Nco/Bam

Aim: ligation of construct with pet24d for overproduction of flagellin and crystallization

The Nco/cut Flagellin PCR products from 18.x (from clone 7 and piGEM-005) were ligated with Nco1 and BamH1 cut pet24d.

Component Pet-Hag attempt (µL) Pet-Hag-DARPin attempt (µL)
Insert (PCR fragments) (ca. 260 ng/µL) 2 2
Vector (pet24d, c= 50ng/µL) 5 5
Ligase-Buffer 10x 2 2
T4 Ligase 1 10
Milipore Water 10 10
Total Volume 20 20

The attempts were carried out in double and incubated at room temperature -One attempt for 1h  followed by transformation into E.Coli XL1-Blue and the second one overnight.

18.37 repetition of PCR with 3 clones of Pet-Hag and Pet-Hag-DARPin ligation

Aim: checking picked clones for correct Hag/ Hag-DARPin insert in pet24d

3 clones from ligation plates with pet-Hag and pet-Hag-DARPin were resuspended in 30 µL PBS and cooked at 95 °C for 10min. After that procedure 1 µL of this suspenion was used as PCR template.

Content Volume (µL) MM for 7 attempts (µL)
Template ( 1µL cooked suspension)
 (8-10 from pet-Hag, 7-9 from pet-Hag-DARPin)
1 -
Primer Flo 54 - 3,5
Primer Flo 56 - 3,5
Phusion - 3,5
Phusion Buffer 5x - 28
dNTP-mix - 3,5
Water - 98
Mastermix 19 -
Total Volume 20 140

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 45 sec
5 Go To 2 30x
6 72 4min
7 8 infinite

Run overnight

Transformation
Plasmid Concentration (ng/µL) Antibiotic Cells Volume (µL)
Pet24d 148 Can DH5α 1
piGEM-018 160 Amp DH5α 0,5
piGEM-014 350 Amp DH5α 0,5
Gibson pMAD-cup1-1 clone 4 60 Amp DH5α 1
Pet-Hag attempt from 18.36 - Can XL1-Blue 20
Pet-Hag-DARPin attempt from 18.36 - Can XL1-Blue 20
Control pet24d cut Nco/Bam 32 Can XL1-Blue 1

23.06.2014

14.45 Purification of test expression

Aim: Purify PheA-Arc1p-C-0x on a small scale

Lysozyme was added to the cell suspension from 14.44 to a final concentration of 1 mg/mL and incubated on ice for 30 min. Afterwards the cells were lysed using ultra sound (2x 18 pulses, 30 s on ice inbetween). To clear the suspension of cell debris it was centrifuged (13000 rpm, 15 min, 4 °C). The supernatant was purified using QIAGEN Ni-NTA Spin Columns. An SDS-PAGE gel showed that the protein is produced and can be purified using Ni affinity chromatography.

60 mL LB-Kan50 medium was inoculated from the glycerolstock prepared in 14.44 and incubated at 37 °C and 220 rpm over night.

Sequencing of constructs from 23.06.2014
Premix Label-Nr. Construct Primer
1 AGB0023402 piGEM-018 (pMAD-DARPin) Flo54 (Hag-F-Nco)
2 AGB0023403 piGEM-018 (pMAD-DARPin) Flo56 (Hag-R-Bam)
3 AGB0023404 pMAD-Hag-Flank-cup1-1 Flo54 (Hag-F-Nco)
4 AGB0023405 pMAD-Hag-Flank-cup1-1 Flo56 (Hag-R-Bam)
5 AGB0023406 piGEM-002 (Nose plasmid) TW259
18.37 repetition of PCR with 3 clones of Pet-Hag and Pet-Hag-DARPin ligation

Aim: checking picked clones for correct Hag/ Hag-DARPin insert in pet24d

Gel electrophoresis:

The gel shows negative bands in case of the Hag-DARPin clones. The PCR for Hag 8 and 9 did not work although we cooked the clones with PBS. The transformation efficiency seemed to be very low so clones from the new ligation attempts should be analysed.

18.38 ligation checking success of transformed ligation attempts

On every plate grew a high amount of colonies. 6 clones of each plate were picked for inoculation of minipreps and for cPCR after cooking with PBS. The clones were transferred to another LB-Can plate.

18.39 cPCR with picked clones from 18.38 ligation attempt transformation

Aim: checking picked clones for correct Hag/ Hag-DARPin insert in pet24d

For checking the insertion of the Hag/-DARPin into pet24 the clones from the transformation plate were transferred to another LB-Can plate  and cooked for 10 min in 30µL PBS at 95°C. At the same time the colonies were used to inoculate LB-Can for minipreps.

Content Volume (µL) MM for 14 attempts (µL)
Template ( 1µL cooked suspension)
 (1-6 from pet-Hag, 1-6 from pet-Hag-DARPin)
1 -
Primer Flo 54 - 7
Primer Flo 56 - 7
Phusion - 7
Phusion Buffer 5x - 198
dNTP-mix - 7
Water - 98
Mastermix 19 -
Total Volume 20 280

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 45 sec
5 Go To 2 30x
6 72 4min
7 8 infinite

Run overnight

24.06.2014

14.46 Expression of PheA-Arc1p-C-0x

Aim: Express PheA-Arc1p-C-0x for further use

10 x 500 mL LB-Kan50 medium were inoculated with 5 mL of the overnight culture prepared in 14.45 and incubated at 37 °C and 220 rpm until OD600 reached 0.5. The flasks were cooled to 18 °C and protein production was induced by adding 100 µL 500 mM IPTG. The cultures were incubated over night at 18 °C and 220 rpm. Afterwards the cells were collected by centrifugation (6000 rpm, 20 min, 4 °C), resuspended in buffer A and stored at -20 °C until further use.

25.06.2014

Sequencing results of constructs from 23.06.2014
Premix Label-Nr. Construct Result
1 AGB0023402 piGEM-018 (pMAD-DARPin) Correct insertion of DARPin
2 AGB0023403 piGEM-018 (pMAD-DARPin) Did not work
3 AGB0023404 pMAD-Hag-Flank-cup1-1 Correct insertion, point mutation refers to bad sequencing
4 AGB0023405 pMAD-Hag-Flank-cup1-1 Did not work
5 AGB0023406 piGEM-002 (Nose plasmid) Correct insertion of the CM resistance
18.39 Gel cPCR with picked clones from 18.38 ligation attempt transformation

Aim: checking picked clones for correct Hag/ Hag-DARPin insert in pet24d

Gel electrophoresis: no bands except for the controls were seen. The PCR has to be repeated with more colony in the PCR tubes or the prepped plasmids

18.40 test digest with Nco/Bam of prepped plasmids from picked colonies

Aim: checking picked clones for correct Hag/ Hag-DARPin insert in pet24d

The picked clones from the ligation attempts 18.38 were prepped. In order to check the insertion of the Hag/ Hag-DARPin domain the plasmids were digested with Nco1/ BamH1 so that the gel should show the insert of 1 or 1,5 bp length and the pet24d backbone at 5300 bp. Because of an unavailable marker as a control the PCR amplified inserts which were used for the ligation will run  with the gel as well. piGEM-001 will also be cut Nco/Bam in order to receive a marker band for the pet24d backbone.

Component Volume (µL) Mastermix for 8 attempts
Plasmid (ca. 45 ng/µL 5 -
Cutsmart 10x - 4
NcoI - 0,5
BamH1 - 0,5
Water - 35
Mastermix 5 -
Total Volume 10 40
20.6 Purification of cPCR samples with Gel extraction kit

Aim: purification of samples for sequencing

Purified samples:
clone 3 & 5 from transformed piGEM-005
clone 3 & 9 from transformed piGEM-018

Clone Concentration (ng/µl)
Hag 3 10
Hag 5 14
Hag-DARPin 3 9
Hag-DARPin 9 9

26.06.2014

20.7 PCR with purified cPCR samples from 20.x

Aim: PCR amplification of purified cPCR samples

The concentration of the cPCR samples after purification was too low for sequencing. Therefore the cPCR samples have to be amplified with PCR again.

Content Volume (µL) MM for 6 attempts (µL)
Purified cPCR product from 20.x
 (3 & 5 from pet-Hag, 3 & 9 from pet-Hag-DARPin)
1 -
Primer Flo 54 - 6
Primer Flo 56 - 6
Phusion - 6
Phusion Buffer 5x - 6
dNTP-mix - 60
Water - 216
Mastermix 19 -
Total Volume 20 300

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 45 sec
5 Go To 2 30x
6 72 4min
7 8 infinite
20.8 Sequencing of purified cPCR samples from pMAD transformation
Premix Label-Nr. Construct Primer
1 AGB0023407 Hag-Spe1 in B.s. genome clone 3 Hag-Nco-fw
2 AGB0023408 Hag-Spe1 in B.s. genome clone 5 Hag-Nco-fw
3 AGB0023409 Hag-Spe1-DARPin in B.s. genome clone 3 Hag-Nco-fw
4 AGB0023410 Hag-Spe1-DARPin in B.s. genome clone 9 Hag-Nco-fw
18.41 new ligation of pet24d and PCR Hag/ Hag-DARPin fragments cut Nco/Bam transformation

Aim: ligation of construct with pet24d for overproduction of flagellin and crystallization

The cut pet24d Nco/Bam which was used for the previous ligations was not purified and contained an 1 kb insert. For a new cealn ligation the attempt was repreated with pet24d cut by Carina Knauer .The Nco/cut Flagellin PCR products (from clone 7 and piGEM-005) were ligated with Nco1 and BamH1 cut pet24d.

The attempts were carried out in double. The attempts 1 & 2 were incubated 1h at room temperature and finally transformed into E. Coli XL1-Blue after inactivation at 65 for 10 min. The attempts 1.1 and 2.1 were incubated overnight at room temperature. 1 µL of cut vector was transformed as a negative control in order to check the amount of religants.

Component Pet-Hag attempt (µL) – 1 & 1.1 Pet-Hag-DARPin attempt (µL) 2& 2.1
Insert (PCR fragments) (ca. 260 ng/µL) 3 3
Vector (pet24d, c= 86ng/µL) 5 5
Ligase-Buffer 10x 2 2
T4 Ligase 1 1
Millipore water 9 9
Total Volume 20 20

27.06.2014

18.42 Miniprep of ligation clones

The ligation between pet24d and the Hag-/Hag-DARPin fragments which were both cut Nco/Bam was successful. The ligation plates showed over 20 clones each whereby on the negative control  grew a few clones as well which were very small and sticking together. Bad plate out might be the reason for that. In order to analyse the insert of the clones 5 clones per ligation plate 1 and 2 were used to inoculate minipreps in 5 mL LB-Can. For the Ligation 1 Pet-Hag clones 1-5 were picked, as well as clones 6-10 from Plate Ligation 2 Pet-Hag-DARPin.

The cultures were inoculated overnight at 37°C.

28.06.2014

18.42 Miniprep of ligation clones
Construct Clone Concentration (ng/µL)
Pet-Hag 1 50
Pet-Hag 2 87
Pet-Hag 3 65
Pet-Hag-DARPin 6 83
Pet-Hag-DARPin 7 59
18.43 cPCR of clones from 18.42

Aim: checking picked clones for correct Hag/ Hag-DARPin insert in pet24d

Plasmid from prepped clones from each plate were analysed via cPCR with the primers flo54 and flo56 (Hag-fw and Hag-rv). The result should be a ca. 1kb fragment for correct pet24d-Hag containing clones and a 1,5 kb fragment for pet24d-Hag-DARPin containing clones.

Content Volume (µL) MM for 6 attempts (µL)
Picked clones from 18.42
(1-3pet-Hag, 6-7 from pet-Hag-DARPin)
0,5 -
Primer Flo 54 - 3
Primer Flo 56 - 3
Phusion - 3
Phusion Buffer 5x - 6
dNTP-mix - 24
Water - 81
Mastermix 19,5 -
Total Volume 20 120

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 45 sec
5 Go To 2 30x
6 72 4min
7 8 infinite
18.44 test digest with Nco/Bam – Checking insertion of Hag/-DARPin into pet24d

Aim: proving insertion of Hag/-DARPin fragment into pet24d

The plasmids were digested with Nco1 and BamH1. In case of a correct insertion the pet24d backbone and the insert should be seen on the gel at 5300 bp and 1000/ 1500 bp. As control Pet24d-Hag-Flank (piGEM-001) is used to check the mastermix.

Component Volume (µL) Mastermix(6 attempts)
Plasmid from clone
( Pet-Hag 1-3, Pet-Hag-DARPin 6 & 7)
5 -
Cutsmart 10x - 3
NcoI - 0,5
BamHI - 0,5
Water - 26
Total Volume 10 30

20.9 Gel Purification of amplified cPCR products

Aim: Purification for more efficient sequencing

The PCR product of the amplification of cPCR products was not pure considering different bands on the gel next to the right one. In order to exclude sequencing mistakes the PCR attempts were purified via gel extraction of the 1,5 kb band in case of the Hag-DARPin construct.

20.8 PCR with Gel Purified Hag-DARPin cPCR products for sequencing

Aim: amplification of purified Hag-DARPin fragment for sequencing

The purified cPCR product from 20.x has to be amplified again in order to get a higher concentration for sequencing.

Content Volume (µL) MM for 2 attempts (µL)
Purified PCR product from 20.x
(Hag-/ Hag-DARPin fragment)
1-2 -
Primer Flo 54 - 1
Primer Flo 56 - 1
Phusion - 1
Phusion Buffer 5x - 2
dNTP-mix - 20
Water - 75
Mastermix 19 -
Total Volume 20 100

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 45 sec
5 Go To 2 35x
6 72 4min
7 8 infinite
Transformation
Plasmid Concentration (ng/µL) Antibiotic Cells Volume (µL)
Pet-Hag clone 2 87 Can DH5α 1
Pet-Hag clone 3 65 Can DH5α 1
Pet-Hag-DARPin clone 7 59 Can DH5α 1
Gibson Pet-Hag-Cup1-1 - Can DH5α 20
18.45 Spe1 digest of Pet-Hag (piGEM-019)

Aim: linearizing Pet24d-Hag with Spe1 site for a Gibson assembly with Cup1-1

Component Volume (µL)
piGEM-016 (ng/µL) 17
Cutsmart 10x 2
Spe1 0,5
Water 0,5
Total Volume 20

Incubation 1h at 37°C with following heat shock at 80°C

18.46 Gibson assembly with linearized Pet-Hag (piGEM-019) and Cup1-1

Aim: Insertion of Cup1-1 domain into Pet-Hag construct for crystallization

As insert cup1-1 PCR product from 15.55 and Spe1 cut piGEM-016 from 18.44 were used for a new Gibson assembly.
PCR fragment cup1-1 (464 ng/µL)
Spe1 cut pIGEM-005 ( ng/µL)

Component Volume (µl)
Gibson-mix 15
Insert (cup1-1 464 ng/µL) 2,5
piGEM-019 2,5
Total Volume 20

The mix was incubated 5 min at room temperature and then for 1h at 50°C.

In the end the whole mix was transformed into E.Coli XL1-Blue and plated out on LB-Amp. Incubation was done overnight at 37°C.

29.06.2014

18.47 cPCR of Gibson assembly lones of Pet-Hag (piGEM-019) and Cup1-1

Aim: screening clones for right insert

In order to screen the clones for the right insertion of cup1-1 4 clones were picked from the LB-Can plate and transferred to a LB-Can Master plate. Additionally the clones were used for inoculation of minipreps and also cooked in 50 µL dest. Water for 10 min at 95°C. The lysate was used as template.

The PCR with Flo54 and iGEM-025 should generate a 785 bp fragment and the one with iGEM-024 and -025 the 164bp domain fragment.

Content Volume (µL) MM 1 for 5 attempts (µL) MM 2 for 5 attempts (µL)

Cooked lysate solution from clones 1-4

3 -  
Primer Flo 54 - 2,5 -
Primer iGEM-024 - - 2,5
Primer iGEM-025 - - 2,5
dNTP-mix - 2,5 2,5
Phusion - 5 5
Phusion Buffer 5x - 20 20
Water - 67,5 67,5
Mastermix 17 - -
Total Volume 20 100 100

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 45 sec
5 Go To 2 35x
6 72 4min
7 8 infinite

The PCR showed no bands. The colonies were used for minipreps so that the isolated plasmid can the used for analysis of the insert.

30.06.2014

18.48 miniprep of clones from Gibson assembly with Pet-Hag (piGEM-019) and Cup1-1

Aim: isolation of Plasmid DNA for further experiments

Construct Clone Concentration (ng/µL)
Pet-Hag-Cup1-1 1 122
Pet-Hag-Cup1-1 2 85
Pet-Hag-Cup1-1 3 172
Pet-Hag-Cup1-1 4 116
14.47 Purification of PheA-Arc1p-C-0x

Aim: Purify PheA-Arc1p-C-0x in three steps

The resuspended cells from 14.46 were lysed using a french press. The lysate was incubated on ice with 5 µg/mL DNAseA and RNAseI for 10 min and centrifuged (27000 rpm, 45 min, 4 °C) to pellet cell debris. The supernatant was filtered (0.45 µm) and PheA-Arc1p-C-0x purified from the cleared solution by NiNTA affinity chromatography. The combined elution fractions containing crude PheA-Arc1p-C-0x were concentrated to a volume of 2 mL and further purified using an anion exchange column to get rid of possible tRNA contaminations. Finally the buffer was changed to dialysis buffer and the protein concentrated and stored at -80 °C in aliquods for further use.

Sequencing
Premix Label-Nr. Construct Primers
1 AGB0023411 Pet24d-Hag-Spe1 construct cl. 2 Hag-Nco-fw
2 AGB0023412 Pet24d-Hag-DARPin construct cl. 7 Hag-Nco-fw
18.48 PCR of prepped Gibson assembly clones ( Pet-Hag (piGEM-019) and Cup1-1)

Aim: screening clones for right insert

The isolated plasmid 1:10 diluted from the picked clones 1-4 were used as PCR template.

The PCR with Flo54 and iGEM-025 should generate a 785 bp fragment and the one with iGEM-024 and -025 the 164bp domain fragment.

Content Volume (µL) MM 1 for 5 attempts (µL) MM 2 for 5 attempts (µL)

Cooked lysate solution from clones 1-4 (1:10)

3 -  
Primer Flo 54 - 2,5 -
Primer iGEM-024 - - 2,5
Primer iGEM-025 - 2,5 2,5
dNTP-mix - 2,5 2,5
Phusion - 5 5
Phusion Buffer 5x - 20 20
Water - 67,5 67,5
Mastermix 17 - -
Total Volume 20 100 100

Step Temperature °C Time
1 98 3 min
2 98 30 sec
3 55 30 sec
4 72 1 min 45 sec
5 Go To 2 35x
6 72 4min
7 8 infinite

No bands were shown on the gel. The PCR was repeated with Q5 mastermix to exclude the disfunction of the polymerase.

20.9 inoculation of preculture from Bacillus WT 3610

Aim:Preparation of for mainculture the next day

2x6 mL of LB were inoculated with Bacillus WT3610 from an LB plate and incubated at 37°C overnight.