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September

rMFC

CO₂ fixation

Isobutanol

Biosafety

General

Week 1 09/01 - 09/07

FumA

This week we assembled FumA with different constitutive promotors

Restriction digestion with EcoRI and PstI

Bands as expected (~2070 bp and ~1800 bp) for pSB1C3_T7_FumA

BioBrick Assembly (Suffix)

Backbone (digested with SpeI, PstI)

Insert (digested with XbaI, PstI)

FumA

Transformation of all constructs with electrocompotetent cells

Colony PCR (VF-Primer, VR-Primer)

Annealing temperature: 55 °C
Bands as expected (~2100 bp) for all constructs

Plasmid isolation of the positive colonies

Restriction digestion with EcoRI and PstI

Bands as expected (~2070 bp and ~1800 bp)

ccm

Gibson Assembly with ccm and pSB1C3

Transformation of pSB1C3_ccm with electrocompotetent cells

GSU 3274

This week we assembled GSU 3274 with different promotors

BioBrick Assembly (Suffix)

Backbone (digested with SpeI, PstI)

pSB1C3_p_tac
pSB1K3_p_Tet
pSB1A2_T7

Insert (digested with XbaI, PstI)

GSU 3274

Transformation of all constructs with electrocompotetent cells

Colony PCR (VF-Primer, VR-Primer)

Annealing temperature: 55°C
Bands as expected (~ bp) for pSB1C3_p_tac and pSB1A2_T7

Electrobiochemical reactor system

This week we arranged the complete H-cell reactor for the first time to start first trials. Therefore we prepare the H-cell buffers and the Nafion® membrane which ensures the division of the two compartments.

NAD/NADH Assay

This week we startet the first test with the Promega NAD/NADH-Glo™ Assay to evaluate later cultivations respectively.

Week 2 09/08 - 09/14

frd (E.coli)

This week we transform pSB1C3_T7_frd with different E.coli strains for the characterization of it respectively

Transformation of pSB1C3_T7_frd with electrocompotetent cells of KRX ΔdcuB::oprF, JW4084-1 as well as JW0506-1 from the KEIO collection

Colony PCR (VF-Primer, VR-Primer)

Annealing temperature: 55 °C
Bands as expected (~3600 bp)

Restriction digestion of all constructs with EcoRI and PstI

Bands (not) as expected (~... bp)

Expression of frd (E.coli) for SDS-Page
- Induction was carried out with 0.1 % Rhamnose and 1 mM IPTG
- For the release of the periplasmatic protein fraction a cold osmotic shock was performed

ccm

Plasmid isolation of pSB1C3_ccm

Restriction digestion with NotI

Bands not as expected (~6611 bp)

Week 3 09/15 - 09/21

frd (E. coli)

This week we removed the first illegal restriction site (PstI at 144 bp)
- PCR amplification (frd_cut1
  - Annealing temperature: 55 °C
  - Bands as expected (~... bp)
- Gibson Assembly of PCR products and DpnI digestion to remove the template
- Transformation with electrocompotetent cells
- Plasmid isolation for a restriction digestion with PstI afterwards

ccm

This week we tried to get the ccm into the correct backbone

Gibson Assembly with ccm and pSB1C3

Transformation with electrocompotetent cells and Transformation with chemocompetent cells

Plasmid isolation of ccm and Restriction digestion with EcoRI and PstI

Bands mainly not as expected (~6281 bp and ~2070 bp ) because additional bands are visible.
Therefore a restriction digestion with EcoRV and HindIII was done

Bands not as expected because only two bands were visible

Colony PCR with new primer(ccm_con1, VR-Primer)

Annealing temperature: 55°C
Bands as expected (~880 bp)

Plasmid isolation of pSB1C3_ccm and restriction digestion with EcoRI and PstI

Bands not as expected (~6281 bp and ~2070 bp)

PCR amplification of ccm backbone(pSB1C3_pre_ccm, pSB1C3_suf_ccm)

Annealing temperature: 61°C
Bands as expected (~6281 bp)

Week 4 09/22 - 09/28

FumA

This week we removed the the mutation of FumA by PCR

PCR amplification of FumA using a gradient(FumA_mut_fwd, FumA_mut_rev)

Annealing temperature: 50°C to 60°C
Bands as expected (~4000 bp)

Gibson Assembly with FumA and pSB1C3 and digestion with DpnI to remove the template

Transformation with chemocompetent cells

Colony PCR (VF-Primer, VR-Primer)

Annealing temperature: 55°C
Bands as expected (~2100 bp)

Plasmid isolation of pSB1C3_FumA

Sequencing of pSB1C3_FumA (Primer: FumA_seq) confirmed the correct construct

FumBCD

This week we amplified and transformed FumBCD

PCR amplification of FumBCD of pJet-Vector (FumBCD_fwd, FumBCD_rev)

Annealing temperature: 55°C
Bands as expected (1579 bp)

PCR products were purified out of the gel

Gibson Assembly with FumBCD and pSB1C3

Digestion with DpnI to remove the template

Transformation with electrocompotetent cells and Transformation with chemocompetent cells

Colony PCR (VF-Primer, VR-Primer)

Annealing temperature: 55°C
Bands not as expected (~1909 bp)

Week 5 09/29 - 10/05

Deletion of dcuB and integration of oprF into chromosome

Controll of the strain KRX ΔdcuB::oprF with and without frd (E.coli)

FumBCD

This week we amplified and transformed FumBCD

PCR amplification of FumBCD of pJet-Vector (FumBCD_fwd, FumBCD_rev)

Annealing temperature: 55°C
Bands as expected (1579 bp)

PCR products were purified out of the gel

PCR amplification of FumBCD backbone(pSB1C3_pre_Fum_BCD, pSB1C3_suf_Fum_BCD)

Annealing temperature: 55°C
Bands (not) as expected (~2070 bp)

Gibson Assembly with FumBCD and pSB1C3

Transformation with electrocompotetent cells and Transformation with chemocompetent cells

Colony PCR (FumBCD_fwd, FumBCD_rev)

Annealing temperature: 55°C
Bands as expected (~1579 bp)

Plasmid isolation of pSB1C3_FumBCD

Restriction digestion with EcoRI and PstI

Bands not as expected (~1579 bp and ~2070 bp)

Cloning by restriction and ligation

PCR amplification of FumBCD of pJet-Vector (FumBCD_fwd, FumBCD_rev)

Annealing temperature: 55°C
Bands as expected (1579 bp)

Restriction digestion of FumBCD with XbaI and SpeI

Restriction digestion of the backbone with XbaI and SpeI

Ligation of both fragments and Transformation with electrocompotetent cells as well as Transformation with chemocompetent cells

Colony PCR (FumBCD_fwd, FumBCD_rev)

Annealing temperature: 55°C
Bands as expected (~1579 bp)

Verification of the FumBCD insertion in pSB1C3

PCR amplification (VF-Primer, FumBCD_rev)

Annealing temperature: 55°C
Bands as expected (~1694 bp)

Restriction digestion of FumBCD with EcoRI and PstI

Bands as expected (~1579 bp)

anaerobic cultivation for characterization of pSB1C3_T7_frd

We tested all combinations of the following media and strains for the characterization of pSB1C3_T7_frd

Strains

KRX wildtype B0015
KRX wildtype with pSB1C3_T7_frd
JW0506-1
JW0506-1 with pSB1C3_T7_frd

Media

M9 with xylose (50 mM)
M9 with xylose (50 mM) and fumarate (50 mM)
M9 with fumarate (50 mM)

induction was performed by adding 0,1% Rhamnose
To document the growth curve and the consumption of substrate daily samples were taken for OD₆₀₀ measurement and HPLC analytics

anaerobic cultivation for characterization of the antiporter δdcuB

We tested all combinations of the following media and strains for the characterization of pSB1C3_T7_frd

Strains

KRX wildtype B0015
KRX wildtype with pSB1C3_T7_frd
KRX ΔdcuB::oprF
KRX ΔdcuB::oprF with pSB1C3_T7_frd
JW4084-1
JW4084-1 with pSB1C3_T7_frd
JW0506-1
JW0506-1 with pSB1C3_T7_frd

Media

M9 with xylose (50 mM)
M9 with xylose (50 mM) and fumarate (50 mM)
M9 with fumarate (50 mM)

induction was performed by adding 0,1% Rhamnose
To document the growth curve and the consumption of substrate daily samples were taken for OD₆₀₀ measurement and HPLC analytics

@@ Line 525: / Line 525: @@
 <li><a href="https://2014.igem.org/Team:Bielefeld-CeBiTec/Notebook/StrainsAndConstructs" target="_blank">JW0506-1</a>
 <li><a href="https://2014.igem.org/Team:Bielefeld-CeBiTec/Notebook/StrainsAndConstructs" target="_blank">JW0506-1</a> with pSB1C3_T7_<i>frd</i>
+</ul>
+</ul>
+<ul>
+<li>Media</li>
+<ul>
+<li>M9 with xylose (50 mM)</li>
+<li>M9 with xylose (50 mM) and fumarate (50 mM)</li>
+<li>M9 with fumarate (50 mM)
+</ul>
+</ul>
+<ul>
+<li>induction was performed by adding 0,1% Rhamnose</li>
+<li>To document the growth curve and the consumption of substrate daily samples were taken for OD<sub>600</sub> measurement and HPLC analytics
+</ul>
+</ul>
+</ul>
+<br>
+<ul>
+	<li><b>anaerobic cultivation for characterization of the antiporter &delta;dcuB</b></li>
+<ul>
+<li>We tested all combinations of the following media and strains for the characterization of pSB1C3_T7_<i>frd</i></li>
+<ul>
+<li>Strains</li>
+<ul>
+<li>KRX wildtype B0015</li>
+<li>KRX wildtype with pSB1C3_T7_<i>frd</i>
+<li>KRX &Delta;dcuB::oprF</li>
+<li>KRX &Delta;dcuB::oprF with pSB1C3_T7_<i>frd</i></li>
+<li><a href="https://2014.igem.org/Team:Bielefeld-CeBiTec/Notebook/StrainsAndConstructs" target="_blank">JW4084-1</a>
+<li><a href="https://2014.igem.org/Team:Bielefeld-CeBiTec/Notebook/StrainsAndConstructs" target="_blank">JW4084-1</a> with pSB1C3_T7_<i>frd</i></li>
+<li><a href="https://2014.igem.org/Team:Bielefeld-CeBiTec/Notebook/StrainsAndConstructs" target="_blank">JW0506-1</a>
+<li><a href="https://2014.igem.org/Team:Bielefeld-CeBiTec/Notebook/StrainsAndConstructs" target="_blank">JW0506-1</a> with pSB1C3_T7_<i>frd</i></li>
 </ul>
 </ul>

Team:Bielefeld-CeBiTec/Notebook/Journal/rMFC/Sep