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Team:Heidelberg/Notebook/material
From 2008.igem.org
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Revision as of 17:40, 28 October 2008
Contents |
Material
Buffers & Solution
| SM | 50 mM | Tris, pH 7.5 |
| 20 mM | MgSO4 | |
| 50 mM | NaCl | |
| 0.01 % | gelatine | |
| Tethering buffer, pH 7.0 | 10 mM | potassium phosphate |
| (K2HPO4 : KH2PO4 = 1 :1 ) | ||
| 100 µM | EDTA | |
| 1 µM | L-Methionine | |
| 10 mM | lactic acid | |
| M63 salt | 3 g/l | KH2PO4 |
| 9 g/l | K2HPO4 | |
| 4 g/l | (NH4)2SO4 | |
| 0.5 g/l | FeSO4 | |
| Amino acid mix | 5 g/l | L-threonine |
| 5 g/l | L-histidin | |
| 5 g/l | L-leucine | |
| 5 g/l | L-methionine | |
| M9 salts | 64 g/l | Na2HPO4 x 7H2O |
| 15 g/l | KH2PO4 | |
| 2.5 g/l | NaCl | |
| 5 g/l | NH4Cl |
Kits
| Kit | supplier |
|---|---|
| CompactPrep Plasmid Maxi Kit | Qiagen |
| HISpeed Plasmid Maxi Kit | Qiagen |
| MaxPlax™ Lambda Packaging Extracts | EPICENTRE Biotechnologies |
| QIAEX II Gel Extraction Kit | Qiagen |
| QIAGEN Lambda Mini Kit | Qiagen |
| QIAprep Spin Mini Kit | Qiagen |
| QIAquick Gel Extraction Kit | Qiagen |
| QIAquick PCR Purification Kit | Qiagen |
Marker
| Marker | supplier |
|---|---|
| GeneRuler™ High Range DNA Ladder | MBI Fermentas |
| GeneRuler™ 1kb DNA Ladder Mix | MBI Fermentas |
| GeneRuler™ 1kb Plus DNA Ladder Mix | MBI Fermentas |
Enzymes
| Enzym | supplier |
|---|---|
| Pfu DNA polymerase | Stratagene |
| Pfu turbo DNA polymerase | Stratagene |
| Phusion DNA polymerase | Finnzymes |
| Taq DNA polymerase | MBI Fermentas |
| T4 DNA ligase | MBI Fermentas / New England Biolabs |
| AgeI | New England Biolabs |
| BamHI | New England Biolabs |
| BglI | MBI Fermentas |
| BseJI | MBI Fermentas |
| BspEI | New England Biolabs |
| DpnI | Roche Diagnostics / New England Biolabs |
| DraI | New England Biolabs |
| EcoRI | New England Biolabs |
| EcoRV | New England Biolabs |
| HindIII | New England Biolabs |
| KpnI | New England Biolabs |
| NcoI | New England Biolabs |
| NdeI | New England Biolabs |
| NotI | New England Biolabs |
| PstI | New England Biolabs |
| SacI | New England Biolabs |
| SalI | MBI Fermentas |
| ScaI | New England Biolabs |
| SfcI | New England Biolabs |
| SmiI | MBI Fermentas |
| SpeI | New England Biolabs |
| SpeI | New England Biolabs |
| XbaI | New England Biolabs |
| XhoI | MBI Fermentas |
| XmaI | New England Biolabs |
Plasmidvectors
| Name | application | reference |
|---|---|---|
| BBa_B0015 | terminator | http://partsregistry.org |
| BBa_F1610 | LuxI | http://partsregistry.org |
| BBa_I15030 | AI-1 amplifier | http://partsregistry.org |
| BBa_I20260 | GFP | http://partsregistry.org |
| BBa_J01003 | oriT | http://partsregistry.org |
| BBa_J16002 | cloning vector | http://partsregistry.org |
| BBa_J23107 | constitutive promotor | http://partsregistry.org |
| BBa_T9002 | AI-1 GFP receiver | http://partsregistry.org |
| CheY-mCherry | cloning vector | V. Sourjik, ZMBH |
| ColE1 | colicin E1 | DSMZ |
| ColE9-J | colicin E9 | C. Kleanthous, University of York |
| pBad18 | cloning vector | V. Sourjik, ZMBH |
| pBad33 | cloning vector | V. Sourjik, ZMBH |
| pBluescript II SK (+) | cloning vector | V. Sourjik, ZMBH |
| pDest15 | cloning vector | DKFZ Library |
| pDK4 | visualization | V. Sourjik, ZMBH |
| pDK48 | cloning vector | V. Sourjik, ZMBH |
| pDK58 | cloning vector | V. Sourjik, ZMBH |
| pDK6 | visualization | V. Sourjik, ZMBH |
| pED374 | oriT | K. Derbyshire, Wadsworth |
| pES16 | cloning vector | V. Sourjik, ZMBH |
| pMMB863 | oriT | M. Bagdasarian, MSU |
| pQE-30 | cloning vector | Invitrogen |
| pSB1A2 | cloning vector | http://partsregistry.org |
| pSB2K3 | cloning vector | http://partsregistry.org |
| pTrc99a | cloning vector | V. Sourjik, ZMBH |
| pUB307 | helper plasmid | E. Lanka, BfR |
| RP4 | helper plasmid | M. Bagdasarian, MSU |
Synthetic oligonucleotides
All oligonucleotides were purchased from Invitrogen (Karlsruhe) and adjusted to a standard concentration of 100 pmol/µl.
| Name | SEQUENCE (5´->3´) |
|---|---|
| Bam_fw | GACAAGTGTTGGCCATGGAACAGG |
| Bam_rv | GCCGTCTGTGATGGCTTCCATG |
| cI_mut_fw | GCGTCTGGGTGGTGATGAGTTCACCTTCAAAAAACTG |
| cI_mut_rv | CAGTTTTTTGAAGGTGAACTCATCACCACCCAGACGC |
| CmR_EcoRI_mut_fw | GAATGCTCATCCGGAGTTCCGTATGGCAATG |
| CmR_EcoRI_mut_rev | CATTGCCATACGGAACTCCGGATGAGCATTC |
| CmR_fw | GCTAAAATGGAGAAAAAAATCACTGG |
| CmR_new_fw | TACGAGGTACCTTTACAGCTAGCTCAGTCCTAGGTATTATGC |
| CmR_new_rev | TATATAAGCTTTTACGCCCCGCCCTGCCACTCATCGCAGTACTGTTG |
| CmR_Prefix_fw | GAATTCGCGGCCGCTTCTAGAGTTTACAGCTAGCTCAGTCCTAGG |
| CmR_rv | AGGTTCTCCTTTATTAGCCGGATCCTCTAGATTACGCC |
| CmR_Suffix_rv | CTGCAGCGGCCGCTACTAGTATATAAACGCAGAAAGGCCCACCC |
| colE1_kil_prot_rv_A_SpeI | TATATACTAGTACTACTGAACCGCGATCCCCG |
| colE1_mut_EcoRI_fw | GGTATTGCTATTGTTACAGGTATTCTATGCTCCTATATTGATAAG |
| colE1_mut_EcoRI_rv | CTTATCAATATAGGAGCATAGAATACCTGTAACAATAGCAATACC |
| colE1_mut_PstI_1_fw | GCAGTAAAAGTGAAAGTTCAGCAGCTATTCATGCAACTGC |
| colE1_mut_PstI_1_rv | GCAGTTGCATGAATAGCTGCTGAACTTTCACTTTTACTGC |
| colE1_mut_PstI_2_fw | GCTGCCCGGGCAAAAGCAGCAGCGGAAGCACAGG |
| colE1_mut_PstI_2_rv | CCTGTGCTTCCGCTGCTGCTTTTGCCCGGGCAGC |
| colE1_mut_PstI_3_fw | CATTAGAGAAGAAAGCAGCAGATGCAGGGGTGAG |
| colE1_mut_PstI_3_rv | CTCACCCCTGCATCTGCTGCTTTCTTCTCTAATG |
| colE1_prot_fw_BamH1 | TACGAGGATCCATGGAAACCGCGGTAGCG |
| colE1_prot_rv_HindIII | TATATAAGCTTTTAAATCCCTAACACCTC |
| colE9_lysProt_rv_A_SpeI | TATATACTAGTACTAGGTTTTCGGCTTAGAACCCC |
| colE9_mut_EcoRI_fw | GTTGGGTGGACGATTCGAGAGTTCAATGGGGAAATAAAAATG |
| colE9_mut_EcoRI_rv | CATTTTTATTTCCCCATTGAACTCTCGAATCGTCCACCCAAC |
| colE9_plasmid_rv_A_SpeI | TATATACTAGTACACATGGAACTTTTGTGAC |
| colE9_prot_fw_BamH1 | TACGAGGATCCATCGATTTGCCCATGACCC |
| colE9_prot_rv_XmaI | TATATCCCGGGTTACTTACCTCGGTGAATATCG |
| DK13 | TCACCCGCACGCGC |
| DK167 | AGGATACTAGTAGGCCATTACTTT |
| DK9b | CGATGCGGCCGCTCAAAATGTTTCCCAGTTTGG |
| F1610_fw_XbaI | TACGATCTAGAAAAGAGGAGAAATACTAG |
| F1610_rv_HindIII | TATATAAGCTTTATAAACGCAGAAAGGCCC |
| GAM_fw | AGTGCTTTAGCGTTAACTTCCG |
| GAM_rv | GGTTTTACCGCATACCAATAACG |
| GFP_CmR_fw | CTCGTTGGTACCTCTAGATTTACAGCTAGCTCAGTCCTAGG |
| GFP_CmR_rv | TATTCGACCGGTACTAGTTATAAACGCAGAAAGGCCCACC |
| GFP_new_fw | TACGAGAGCTCTTTACAGCTAGCTCAGTCCTAGG |
| GFP_new_rv | TATATACCGGTACTAGTTATAAACGCAGAAAGGCCCACC |
| Lambda_insert_fw | TTGTAAAAACAGCCCTCCTC |
| Lambda_insert_rv | GATATGACTATCAAGGCCGC |
| LuxP_mut_F | CGTGAATTAGCAACAGAGTTCGGAAAGTTCTTCCC |
| LuxP_mut_R | GGGAAGAACTTTCCGAACTCTGTTGCTAATTCACG |
| LuxP_prefix_F | GAGGGAGAATTCGCGGCCGCTTCTAGATGAAGAAAGCGTTACTATTTTC |
| LuxP_sufffix_R | GGAGAGCTGCAGCGGCCGCTACTAGTAATTATCTGAATATCTAAATGCG |
| LuxPc | ATTACGCGGCCGCAGGAAACAGACCATGAAGAAAGCGTTACTATTTTCCC |
| LuxPd | GTAATGTCGACTCAATTATCTGAATATC |
| LuxP-seq-FW | CCCGTCCTGCCAGTGAGC |
| LuxQa | ATCGACCATGGGCAATAAATTTCGCTTAGC |
| LuxQc | GTAATGGATCCTTAGTGGAGGCTTGAGCC |
| LuxQTar_1a | CACAAATCATTGCCAATGAACGTATGTTGCTTACTCCGCTGG |
| LuxQTar_1b | CCAGCGGAGTAAGCAACATACGTTCATTGGCAATGATTTGTG |
| LuxQTar_2a | CTTAGCGACCATGAGCCATGAGTTTGCCCAGTGGCAACTGGC |
| LuxQTar_2b | GCCAGTTGCCACTGGGCAAACTCATGGCTCATGGTCGCTAAG |
| LuxS mutBbaIR | CCACACCCACTTCTAGGATGTTCTTCGCGATTTGC |
| LuxS mutXbaIF | GCAAATCGCGAAGAACATCCTAGAAGTGGGTGTGG |
| LuxS_mut_fw | CATCCTTTCTGAGAAAGGCATTCATACATTAGAGC |
| LuxS_mut_rev | GCTCTAATGTATGAATGCCTTTCTCAGAAAGGATG |
| LuxS_prefix_F | GGAGAGGAATTCGCGGCCGCTTCTAGATGGGCAATGCACCAGCGGTTCG |
| luxS_suffix_R | GAGGGACTGCAGCGGCCGCTACTAGTAGTCGATGCGTAGCTCTCTCAGC |
| LuxSa | ATCAGTCCATGGGCAATGCACCAGCGGTTCG |
| LuxSb | GTAATGGATCCTTAGTCGATGCGTAGC |
| mut_insert_fw | CTGAGGGGACGGTACCTCTACATTTACAGCTAGCTCAG |
| mut_insert_rv | CTGAGCTAGCTGTAAATGTAGAGGTACCGTCCCCTCAG |
| mut_insert2_fw | GGCAGGCGGGGCGTAATCTATAGGATCCGGCTAATAAAGG |
| mut_insert2_rv | CCTTTATTAGCCGGATCCTATAGATTACGCCCCGCCTGCC |
| mut_kpn1_pBlue | CGAGGGGGGGCCCGGTTCCCAATTCGCCCTATAG |
| mut_kpn1_pBlue | CTATAGGGCGAATTGGGAACCGGGCCCCCCCTCG |
| oriT_pre | GAATTCGCGGCCGCTTCTAGAGGACAGGCTCATGCCGGCCGC |
| oriT_RP4_fw | CTCGTTTCTAGAACTAGTGACAGGCTCATGCCGGCCGC |
| oriT_RP4_rv | TATTCGGGTACCGTCCCCTCAGTTCAGTAATTTCCTGC |
| oriT_suf | CTGCAGCGGCCGCTACTAGTAGTCCCCTCAGTTCAGTAATTTCCTGC |
| T9002_Lux_pR_rv_SpeI_BamHI_RBS | TATATACTAGTGGATCCGGTTCTGTTTCCTCTCTAGTATTTATTCGAC |
| T9002_LuxpR_Not_Eco_Xba_G_fw | TACGAGAATTCGCGGCCGCTTCTAGAGTCCCTATCAGTGATAGAGATTG |
| Term_new_fw | TACGAAAGCTTCCAGGCATCAAATAAAACGAAAGG |
| Term_new_rv | TATATGAGCTCTATAAACGCAGAAAGGCCCACCC |
| VF2 | TGCCACCTGACGTCTAAGAA |
| VIC121 | TTTATCGCAACTCTCTACTG |
| VIC122 | CTGATTTAATCTGTATCAGG |
| VIC131 | ATGTGTGGAATTGTGAGCGG |
| VIC132 | CTGATTTAATCTGTATCAGG |
| VR | ATTACCGCCTTTGAGTGAGC |
Phages
| Name | application | reference |
|---|---|---|
| Lambda cI mut | cI deleted | W. Reiser, ZMBH |
| Lambda cI857 | heat inducible | MBI Fermentas |
Bacteria
| E.coli strain | usage | reference |
|---|---|---|
| DH5a | amplification of plasmids | Invitrogen |
| HCB33 | swarm assays | V. Sourjik, ZMBH |
| MG1655 | swarm assays | V. Sourjik, ZMBH |
| TOP10 | amplification of plasmids | Invitrogen |
| UU1250 | chemotaxis receptor knock out | V. Sourjik, ZMBH |
Bacteria Growth Media
| Luria Broth (LB) | 10 g/l | tryptone |
| 5 g/l | yeast extract | |
| 10 g/l | NaCl | |
| Luria Broth (LB) plus | 10 g/l | tryptone |
| 5 g/l | yeast extract | |
| 20 g/l | NaCl | |
| TB | 10 g/l | bacto tryptone |
| 5 g/l | NaCl | |
| Standard I | 15.6 g/l | peptone P |
| 2.8 g/l | yeast extract | |
| 5.6 g/l | NaCl | |
| 1 g/l | D-glucose | |
| Minimal medium | 9.8 % | M63 salts |
| 0.2 % | glycerol | |
| 0.1 g/l | Thiamine | |
| 1 mM | MgSO4 | |
| 0.8 % | amino acid mix | |
| M9 | 20 % | M9 salts |
| 2 mM | MgSO4 | |
| 0.4 % | glucose | |
| 0.1 mM | CaCl2 |
For cultivation of phages the media were supplied with 0.2 % maltose and 10 mM MgSO4. For preparation of agar plates 15 g/l agar, for preparation of top agar 7 g/l agar was added prior the autoclaving. For selection of resistant bacteria following antibiotics were added during cooling of at agar at about 50 °C:
| Antibiotic | concentration |
|---|---|
| Ampicillin | 100 µg/ml |
| Chloramphenicol | 35 µg/ml |
| Kanamycin | 50 µg/ml |
The same concentrations of antibiotics were used for selection of resistant in media.
Methods
Preparing chemically competent cells
First, a 20 ml over night culture was inoculated in antibiotic free LB medium from a fresh single colony and transferred into 400 ml antibiotic free LB medium the next day. This culture was incubated at 37 °C while shacking until an OD600 of 0.5 – 0.6 was achieved. The culture was than cooled down on ice, centrifuged (8 min, 4 °C, 3500 rpm), the supernatant discarded and the pellet resuspended in 10 ml 100 mM CaCl2. After addition of further 190 ml 100 mM CaCl2 the suspension was incubated on ice for 30 min. The suspension was than again centrifuged (8 min, 4 °C, 3500 rpm), the supernatant discarded, the pellet resuspended in 20 ml 82.5 mM CaCl2 with 17.5 % glycerol and aliquoted. The aliquots were flash frozen in liquid nitrogen and than stored at -80 °C until usage.
Transformation of bacteria
For enrichment of vectors, E .coli TOP10 and DH5α were used. For the transformation 100 µl of the competent cells were thawed on ice and 50 – 200 ng DNA solution added (depending on the concentration of the DNA solution). After a 20 minute incubation on ice, cells were made permeable for the DNA by heat shocking for 45 seconds at 42 °C and a further 2 minute incubation on ice. The samples were than rescued by adding 250µl preheated antibiotic free LB-medium and incubated for one hour at 37 °C while shacking for induction of the antibiotic resistance. The selection for plasmid containing and therefore antibiotic resistant bacteria was conducted by plating them on antibiotic containing LB-agar plates.
Isolation of plasmid DNA by alkaline lysis (mini and maxiprep)
For analysis of ligations and transformations QIAprep Spin Kits (Qiagen, Hilden) were used following the manufacturer instructions. For miniprep a single colony was picked from a LB-agar plate or glycerol stock was used to inoculate 5 ml LB-medium with appropriate antibiotic for selection (100 µg/µl ampicillin, 50 µg/µl kanamycin, 35 µg/µl chloramphenicol). Bacteria were grown over night at 37 °C while shaking (200 rpm). By using 4 ml over night culture with this kit the yield was around 6-10 µg. For maxipreps the Qiagen CompactPrep Plasmid Maxi Kit was used following the instructions given by the instruction manual. In this case 250 ml LB-medium were inoculated and used for preparation of plasmid DNA. The routinely yield was 300-400 µg plasmid DNA. Purity and amount of DNA was analysed using a NanoDrop.
DNA amplification using polymerase chain reaction (PCR)
By using PCR smallest amount of DNA can be detected and amplified. The principle of PCR is the selective amplification of any region of the DNA. Nevertheless, the sequence at both ends must be known for the binding of two complementary primers. The DNA region of interest is than amplified exponentially while the reproduction of the DNA takes place in three temperature stpes: denaturation of parental DNA at high temperature (95-98 °C), hybridisation of primers (58-65 °C) and DNA elongation (72 °C). For the amplification a heat-stable DNA polymerase I with a 3’-5’ exonuclease activity (proof reading) is used such as Pfu (from Pyrococcus furiosus) and Phusion (a Pyrocuccus-like enzyme) or the non proof reading enzyme Taq (from Thermus aquaticus). Phsuion polymerase was used in a 2x master mix adding only primers (20pmol each) and DNA template (~10ng) or alternatively colonies from agar plates (1-5 colonies) in a final volume of 50 µl. For taq and Pfu polymerase following reaction batch was commonly used:
| 1 µl template (10 ng) / colonies |
| 2 µl primer 1 (10 pmol/µl) |
| 2 µl primer 2 (10 pmol/µl) |
| 1 µl polymerase (2,5 Units) |
| 1 µl dNTP mix (10 mM) |
| 5 µl 10x buffer |
| 38 µl dH2O |
The PCR procedure was as follows:
| Initiale denaturation | 95- 98 °C, 3-5 min | 1 cycle |
| denaturation | 95-98 °C, 15 sec - 1 min | |
| annealing | 58-65 °C, 15 sec - 1 min | 25-28 cycles |
| elongation | 72 °C, 15 sec - 3 min | |
| termination | 72 °C, 5 – 10 min | 1 cycle |
| 4 °C | forever | |
For site directed mutagenesis PCR Pfu turbo polymerase (Stratagene) was used in the same reaction batch described above. The temperature program was as follows:
| initiale denaturation | 95 °C, 30 sec | 1 cycle |
| denaturation | 95 °C, 30 sec | |
| annealing | 55 °C, 1 min | 16 cycles |
| elongation | 68 °C, 2 min per kb of plasmid | |
| termination | 68 °C, 10 min | 1 cycle |
| 4 °C | forever | |
