<legend><a name="exp23.2">23.2 Transformation of competent <i>E. coli</i> DH5&alpha; with pSB1C3 BB8 </a></legend>

<p>Aim: Isolate the plasmid in order to use the pSB1C3 backbone for the cloning of our biobricks.The contained brick will be digested out and the backbone will be used together with our inserts to clone the vectors.</p>  

<p>Standard <i>E. coli</i> transformation protocol was followed and cells were plated on LB-CM plates.</p>

       <legend><a name="exp18.65">18.65 Test digest of isolated clones from 18.63</a></legend>

     <p>Aim: Checking insertion of StrepDARPidin into pET16b </p>

       <p>The isolated plasmids from the positive clones were digested with <i>Nco</i>I/ <i>Xho</i>I in order to see if the 900 bp were flipping out of the pET16b backbone.

             <th>Mastermix (&micro;L)</th>

             <th>Mix per samle (&micro;L)</th>

             <th>pET16b-Insert (approx. 50-80 ng/ &micro;L) </th>

             <th scope="row">CutSmart  10x</th>

             <th scope="row"><i>Nco</i>I</th>

             <th scope="row"><i>Xho</i>I</th>

                 <p> Incubation at 37&deg;C for 40 min.</p>

<p>The gel showed that all picked clones were positive. Clone 17 was sent was sequencing and transformed into <i>E. coli</i> BL21(DE3).</p>

       <legend><a name="exp18.66">18.66 Expression-Test with transformed <i>E. coli</i> BL21 (DE3)</a></legend>

     <p>Aim: Checking the overexpression of pET24d-StrepDARPidin </p>

<p>In order to check the expression of the StrepDARPidin a colony containing piGEM-028 (pET16b-StrepDARPidin) was used to inoculate 20 mL of LB-Amp. The culture incubated at 37&deg;C until an OD of 0,7.</p>

<p>A approx. 1 mL preinduction probe (PI) was taken (0,7 (favoured OD) : 0,7 (actual OD) = 1 mL). After that the cultures were induced with 20 &micro;L IPTG for 3h.</p>

<p>An induction probe (I) was taken (320 &micro;L with an OD of 2,2; 350 &micro;L with an OD of 2).</p>

<p>PI and I were centrifuged at 14000 rpm for 1 min, the supernatant was discarded and the pellet resuspended in 60 &micro;L water and 40 &micro;L SDS-Buffer.</p>

<p>The four probes were analysed on an SDS-PAGE gel with 10 &micro;L volume per probe.</p>

<p>The gel showed a positive overexpression of a protein at approx. 30 kDa which fits the calculated molecular mass.</p>

     <th scope="col"><i><i>amyE</i> </i> FlankI</th>

     <th scope="col"><i><i>amyE</i> </i> FlankII</th>

     <th scope="col"><i><i>lacA</i> </i> FlankI</th>

     <th scope="col"><i><i>lacA</i> </i> FlankII</th>

     <th scope="col"><i>amyE</i>-<i>yvyD</i> FlankII</th>

     <th scope="row">Template (&Delta;51 fac gDNA 1:10)</th>

  <th scope="row">Total&nbsp; (&micro;l) </th>

<p>The amplification of KSII did not work: some unspecific bands were visible but not of the expected size. The amplification of flank 1 <i><i>amyE</i> </i> fw, flank 3 <i>lacA</i> fw and flank 4 <i>lacA</i>  rev was successful but yielded in a low amount of PCR product.</p>  

     <legend><a name="exp13.79">13.79 Transformation of <em>Bacillus subtilis</em> PY79 with the Nose-plasmids</a></legend>

       <p>The plasmids of 13.78 were isolated at the weekend. Frozen and competent  

  <em><i>B. subtilis</i> </em>cells were thawed without ice. 15 &micro;l of each plasmid were given to the cells that were incubated at 37&deg;C for 0.5 hours. After regeneration the cells were plated on LB-Cm plates (5 g/&micro;l) and were incubated at 30&deg;C for several days.</p>

transformants were inoculated in liquid LB-CM (10:30) for plasmid isolation.

<legend><a name="exp23.4">23.4 Plasmid isolation and digest of pSB1C3, Hag-<i>Kpn</i>I and StrepDARPidin</a></legend>

<p>Aim: Gain digested plasmid and inserts for ligation of our first two biobricks</p>

<p>Test digest with the isolated plasmid was performed with the corresponding enzymes (<i>Eco</i>RI and <i>Pst</i>I) over night. Besides 600 ng of the already existing PCR fragments Hag-<i>Kpn</i>I and StrepDARPidin were digested with the same enzymes.</p>

<p>Hag-<i>Kpn</i>I 130 ng/&micro;l</p>

<p>Strep-DARPidin 55 ng/&micro;l after purification</p>

<p>psB1C3 130 ng/&micro;l after plasmid isolation</p>

<p><u>Digest:(20&micro;l reaction mix)</u></p>

     <th scope="col">Digestion Mix</th>

     <th scope="col">StrepDARPidin (600 ng) (&micro;l)</th>

     <th scope="col">Hag-<i>Kpn</i>I (600 ng) (&micro;l)</th>

     <th scope="col">pSB1C3 (2 &micro;g) (&micro;l)</th>

     <td>10</td>

     <td>5</td>

     <td>13</td>

   <th scope="row">CutSmart  Buffer</th>

   <th scope="row"><i>Eco</i>RI</th>

   <th scope="row"><i>Pst</i>I</th>

<legend><a name="exp22.6">22.6 </a>Repeated fusion-PCR of the Killswitch module I with the flanks <i><i>amyE</i> </i>  I/II</legend>

     <p>Aim: Fuse the <i><i>amyE</i> </i>  flanks to killswitch module I.</p>

     <th scope="col">KSI (&micro;l)</th>

     <th scope="row" style="height: 25px">Template: KSI (approx.5 ng/&micro;l) </th>

     <th scope="row"><i><i>amyE</i> </i>  flank I (5 ng/&micro;l)</th>

     <th scope="row"><i><i>amyE</i> </i>  flank II (approx. 5 ng/&micro;l)</th>

     <th scope="row">Phusion DNA-polymerase</th>

<p>The bands were at a height of approx. 1500 bp which is too small for the expected fragment of 1847 bp.</p>

<legend><a name="exp22.7">22.7 </a>Gibson Assembly of KS module I with the flanks <i><i>amyE</i> </i>  I/II</legend>

     <p>Aim: Fuse the <i><i>amyE</i> </i>  flanks to killswitch module I.</p>

     <th scope="col">Gibson with vector (&micro;L)</th>

     <th scope="col">Gibson without vector (&micro;l)</th>

     <th scope="col">Control (&micro;l)</th>

     <th scope="row">KS module I (approx. 5 ng/&micro;l)</th>

     <th scope="row">Flank <i><i>amyE</i> </i>  I (approx. 5 ng/&micro;l)</th>

     <th scope="row">Flank <i><i>amyE</i> </i>  II (approx. 5 ng/&micro;l)</th>

<p>The reactions were incubated at 50&deg;C for an hour and used to transform <i>E. Coli</i> XL1-Blue, plated out on LB-Amp. An additional reaction was started without pMAD in a lower (1 &micro;l) and a higher (2 &micro;l) amount of <i>amyE</i>  flank I. These reactions were used to do a PCR reaction with the primers piGEM034 and piGEM037 to test if the assembled fragment is present in the reaction. The expected bands should have a size of 1847 bp but the fragment visible is only approx.1300 bp big. It seems like the flank I is missing but then the fragment should not have been amplified, since the primers were chosen to include both flanks.</p>

<p>Aim: The purified plasmids/inserts will afterwards be used for ligations.</p>

<p>Information: iBB8 has a size of 1461 bp, vector 2000bp, Inserts Hag-<i>Kpn</i>I and StrepDARPidin 1000 bp</p>

<p>Image of the gelextraction, as a marker the 1kb gene ruler was used, 1 = StrepDARPidin, 2= Hag-<i>Kpn</i>I, 3 and 4 = pSB1C3</p>

<legend><a name="exp23.6">23.6 Ligation of digested inserts StrepDARPidin and Hag-<i>Kpn</i>I into pSB1C3and transformation into chemically competent E. coli XL-1-blue</a></legend>

<p>pSB1C3= 18 ng/&micro;l</p>

<p>StrepDARPidin= 5 ng/&micro;l</p>

<p>Hag-<i>Kpn</i>I= 13 ng/&micro;l</p>

     <th scope="col">Ligation Mix</th>

     <th scope="col">Hag-<i>Kpn</i>I </th>

     <th scope="col">Control</th>

     <th scope="row">T-4 ligase Buffer</th>

<p>After the ligation the whole reaction mix was used to transform chemically competent <i>E. coli</i> XL-1-blue cells (standard protocol). Cells were plated on LB-Cm plates and incubated at 37&deg;C over night.</p>

             <th scope="row">Template (&Delta;51 fac gDNA 1:10)</th>

             <th scope="row">Phusion DNA-polymerase</th>

<p>The gel showed the expected band for the killswitch module 1 but only one band for flank 1 in the reaction with the annealing temperature of 58&deg;C. The remaining reactions for KSI were pooled and purified with a Gel Ex kit. Since the only band for the flank 1 is visible at 58&deg;C and not above another PCR was prepared with lower annealing temperatures but the same reaction mix as above.</p>

     <legend><a name="exp13.80">13.80 repeated transformation of <i>B. subtilis</i> PY79 and <i>E. coli</i> DH&alpha; with the Nose-plasmids</a></legend>

     <p>Aim: insertion of the Nose-plasmids into <i>B. subtilis</i> in order to test the promoters and into E. coli for multiplication of the plasmids </p>

  <i>B. subtilis</i> PY79, since the former plates seemed to be contaminated by other organisms. <i>E. coli DH5&micro;</i> was transformed with the rest of the plasmids to multiply it for later purposes.</p>

       <p>Three colonies were grown on the plate with the Gibson assembly transformed XLI-Blue cells. The control also contained three colonies. However, the colonies of the Gibson plate were tested by colony PCR with the primer surrounding the flanks of the connected KSI module, since no primer were available which target regions in the vector pMAD.</p>

         <th scope="col">Master mix for 4 reactions (&micro;l)</th>

     <th scope="col">Colony PCR</th>

     <th scope="col">StrepDARPidin MM 6x (&micro;l)</th>

     <th scope="col">Hag-<i>Kpn</i>I MM 6x (&micro;l)</th>

   <p>Colony PCR negative, therefore plasmids were isolated and digested with the <i>Eco</i>RI and <i>Pst</i>I.</p>   

<legend><a name="exp23.8">23.8 Test restriction of presumably positive plasmids after plasmid isolation</a></legend>

<p>Restriction: 4 &micro;l plasmid in a total 10 &micro;l restriction mix</p>

     <th scope="col">Amount (&micro;L)</th>

   <th scope="row">CutSmart  Buffer</th>

   <th scope="row"><i>Eco</i>RI</th>

   <th scope="row"><i>Pst</i>I</th>

<p>Restriction positive (2kb plasmid and 1kb insert), one clone each will be send for sequencing.</p>

<!--Added later: Note that Clone 1 of Hag-<i>Kpn</i>I is negative.-->

<legend><a name="exp18.67">18.67 StrepDARPidin expression in <i>E. coli</i> BL21 (DE3)</a></legend>

<p>3 L LB medium were prepared with 1 mL ampicillin each and inoculated with some clones from the B21 transformation plate. The cultures were induced with 50 ml lactose solution (12,5g/ 50 mL) each and incubated at 30&deg;C over night.</p>

<p>In order to check the expression of the StrepDARPidin a colony containing piGEM-028 (pET16b-StrepDARPidin) was used to inoculate 20 mL of LB-Amp.</p>

<p>Aim: fuse killswitch module I and flanks I <i>amyE</i> fw and II <i>amyE</i>  rev together</p>

<p>The fragments were all amplified and purified. This time a gradient was performed with an initial step of 50&deg;C for 0.5 hours (similar to a Gibson assembly)</p>

             <th scope="col">Master mix for 10 reactions (&micro;l)</th>

             <th scope="col">Single reaction (&micro;l)</th>

             <th scope="row">Killswitch module I (approx. 10 ng/&micro;l)</th>

             <th scope="row">Flank I <i>amyE</i>  for</th>

             <th scope="row">Flank II <i>amyE</i>  rev </th>

<p>The fusion-PCR worked and the bands had the expected size of approx.1800 bp.</p>

<legend><a name="exp23.9">23.9Sequencing of pSB1C3 StrepDARPidin and pSB1C3 Hag-<i>Kpn</i>I</a></legend>

<p>iGEM Primer in the list of last year's team number 37 and 38 (Sample premix)</p>

<p>AGB0023-644= Hag-<i>Kpn</i>I Fw (Clone 4)</p>

<p>AGB0023-645= Hag-<i>Kpn</i>I Rv</p>

<legend><a name="exp18.68">18.68 StrepDARPidin expression in <i>E. coli</i> BL21(DE3) and purification</a></legend>

<li>taking 40&micro;L supernatant  (load)+ 10 &micro;L SDS-Buffer - <em>L-Probe</em></li>

<li>taking 40 &micro;L of flow through + 10 &micro;L SDS-buffer - <em>FT-Probe</em></li>

  <li>taking 40 &micro;L of washing flow through + 10 &micro;L SDS-Buffer - <em>W-Probe</em></li>

<li>taking 40 &micro;L of Elution 1-6 + 10 &micro;L SDS-Buffer<em> E-probe</em> </li>

<legend><a name="exp18.69">18.69 New StrepDARPidinexpression in <i>E. coli</i> BL21 (DE3) </a></legend>

<p>We considered that the StrepDARPidin might be in inclusion bodies because of the Streptavidin part and the codon optimization. So we tried expression overnight with 0.1 mM IPTG of an 100 mL culture at OD 0,7. We induced as well with lactose overnight as a control.</p>

<p>The 4 cultures were incubated at 20&deg;C and 30&deg;C in the shaker overnight.</p>

<p>Aim: amplification of the Hag-D2-Cup/ -Strep for cloning into pET24d in order to prepair crystallization.</p>

<p>piGEM-026 and -027 were used as a PCR template to amplify Hag-D2 constructs for cloning into pET24d in order to express the flagellin modification for crystallization. Fragments the size of approx. 1450 for Hag-D2-Cup and 1350 for Hag-D2-Strep were expected.</p>

             <th scope="col">PCR D2-Cup I (&micro;L)</th>

             <th scope="col">PCR D2-Cup II (&micro;L)</th>

             <th scope="col">PCR D2-Strep  (&micro;L)</th>

             <th scope="row">piGEM-026 (1:10 - 10 ng/&micro;L) </th>

             <th scope="row">piGEM-027 (1:10- 10 ng/&micro;L)</th>

             <th scope="row">Phusion DNA-polymerase </th>

<p>The PCR Probes were purified and pooled with the Omega Gel Extraction Kit due to the enzymatic reaction purification protocol. Final concentrations:</p>

<ul>Hag-D2-Cup: 41 ng/ &micro;L</ul>

<ul>Hag-D2-Strep: 25 ng/ &micro;L</ul>

<p>Aim: digest with <i>Nco</i>I and Bam of the Hag-D2 PCR product for cloning into the expression vector pET24d <i>Nco</i>I/<i>Bam</i>HI cut</p>

<p>The PCR products from 19.12 were digested with <i>Nco</i>I and <i><i>Bam</i>HI</i>HI to get the restriction sites for cloning into pET24d <i>Nco</i>I/<i>Bam</i>HI cut. </p>

             <th scope="col">PCR PCR D2-Cup (&micro;L)</th>

             <th scope="col">PCR D2-Strep (&micro;L)</th>

             <th scope="row">Hag-D2-Cup (41 ng/&micro;L) </th>

             <th scope="row">Hag-D2-Strep(25 ng/&micro;L)</th>

             <th scope="row">CutSmart  10x</th>

             <th scope="row"><i>Nco</i>I</th>

             <th scope="row"><i>Xho</i>I</th>

<legend><a name="exp22.11">22.11 Gibson assembly of pMAD <i>Nco</i>I/<i><i>Bam</i>HI</i>HI with the fused KSI + flanks <i>amyE</i> fw and rev</a></legend>

<p>The fragment of the fusion PCR (22.10) was separated on a 1% agarose gel, digested out and purified with a Gel Ex kit. The already digested pMAD plasmid was used to perform a Gibson assembly.</p>

     <th scope="col">Gibson with vector (&micro;L)</th>

     <th scope="col">Control (&micro;L) (only digested pMAD)</th>

     <th scope="row">pMAD <i>Nco</i>I/<i><i>Bam</i>HI</i>HI (47.6 ng/&micro;L)</th>

     <th scope="row">KS part I (88.1 ng/&micro;L)</th>

<legend><a name="exp13.81">13.81 Preparation of media and strains for another <i>B. subtilis</I> transformation</a></legend>

<p>Aim: Since the transformation of <i>B. subtilis</i> with the SPC/SPII method and the Nose-plasmids did not work the Low Salt/High Salt method should be tested.</p>

<p>The protocol and the strains were provided by AG Bremer of the microbiology department of the Philipps Universit&auml;t Marburg. All media were prepared as possible (methods) and the strains <i>B. subtilis</I> 168 and <i>B. subtilis</i> JH642 were streaked on LB-Agar and incubated at 37&deg;C.</p>

<legend><a name="exp18.70">18.70 New StrepDARPidin expression in <i>E. coli</i> BL21 (DE3)</a></legend>

<p>For further experiments for the isolation of the protein in inclusion bodies new expression cultures from a freshly transformed BL21(DE3) strain with piGEM-028 were used to inoculate 3 L expression culture with lactose overnight.3 L LB were prepared with 1 mL ampicillin each. The cultures were induced with 50 ml lactose solution (12,5g/ 50 mL) each and incubated at 30&deg;C overnight. </p>

<legend><a name="exp19.14">19.14 Ligation of digested Hag-D2-Cup/ -Strep constructs with pET24d <i>Nco</i>I <i>Bam</i>HIcut</a></legend>

<p>The <i>Nco</i>I/<i>Bam</i>HI digested PCR fragments from 19.13 were ligated into predigested pET24d. The 20 &micro;L attempts were transformed into <i>E. coli</i> XL1-Blue after inactivation (10min at 65&deg;C) and selected on LB- Amp plates incubated overnight at 37&deg;C.</p>

     <th scope="col">Ligation I: pet-Hag-D2-Cup(&micro;L)</th>

     <th scope="col">Ligation II: pet-Hag-D2-Strep (&micro;L)</th>

     <th scope="col">Control (&micro;L)</th>

     <th scope="row"><i>Nco</i>I<i>Bam</i>HI digested Hag-D2-Cup</th>

     <th scope="row"><i>Nco</i>I<i>Bam</i>HI digested Hag-D2-Strep</th>

     <th scope="row">pET24d <i>Nco</i>I/<i>Bam</i>HI(6,5 ng/&micro;L)</th>

<legend><a name="exp19.14">19.14 Ligation of digested Hag-D2-Cup/ -Strep constructs with pET24d <i>Nco</i>I/ <i>Bam</i>HI cut</a></legend>

<legend><a name="exp18.70">18.70 3rd StrepDARPidin expression in <em>E. coli BL21 (DE3)</em></a></legend>

<p>The cultures were centrifuged at 4000 rpm. The pellets were resuspended in 10 ml Buffer A and centrifuged down at 4000 rpm again. The supernatant was discarded and the pellets were frozen at -80&deg;C.</p>

<legend><a name="exp23.10">23.10 Results of thesequencing of pSB1C3 StrepDARPidin and pSB1C3 Hag-<i>Kpn</i>I</a></legend>

<p>Sequencing results -positive for both sent plasmids.</p>

<p>In order to rescue the StrepDARPidin from the inclusion bodies we tried different protocols. The pellet from 07.09.2014 was warmed up and the cells were cracked with the microfluidizer after resuspension in 15 mL Buffer A (lysate)). </p>

<p>The suspension was centrifuged at 20.000 x g for 15 min. The supernatant (S1) was discarded  and the pellet (P1)resuspended in 5 mL 6 M guanidinium-HCL solution for solubilisation and unfolding of the StrepDARPidin.</p>

<p>From every fraction 40 &micro;L were taken for a commassie SDS-PAGE and 10 &micro;L 10x SDS Buffer added. The pellet probes were resuspended in 60 &micro;L water and 40 &micro;L SDS-Buffer.</p>

<p>The gel showed us that the StrepDARPidin is still in the pellet fraction but we were able to make some of it soluble as it can be seen in  S2 and the load. The StrepDARPidin was thought to build tetramers with approx. 120 kDa size. The complex seems to be stabil enough to be seen on the gel above the marker which fits to the size of approx. 120 kDa. Boiling up would break the tetramer.</p>

<legend><a name="exp19.15"></a>19.15 Test digest <i>Nco</i>I/ <i>Bam</i>HI with pET24d-Hag-D2-Cup/ -Strep clones</legend>

<p>The plasmids from 6 clones per Ligation plate were isolated and approx. 350 ng DNA were digested with <i>Nco</i>I/<i>Bam</i>HI in order to check the right insertion of the 1350-1450 bp sized inserts.</p>

             <th scope="col">PCR D2-Cup (&micro;L)</th>

             <th scope="col"><i>Nco</i>I/ <i>Bam</i>HI Mastermix (14x)(&micro;L)</th>

             <th scope="row">Plasmid (60 ng/ &micro;L)</th>

             <th scope="row">CutSmart  10x</th>

             <th scope="row"><i>Nco</i>I</th>

             <th scope="row"><i>Bam</i>HI</th>

<p>Digest at 37&deg;C for half an hour.</p>

<p>Upper half of the gel shows hag-D2 cup, lower half shows hag-D2-Strepdarp; 1kb gene ruler ladder was used. 3 clones seem to be positive for cup, but as an mixture occurred, the cloning procedure will be repeated from the PCR step on.</p>

<legend><a name="exp19.16">19.16 PCR amplification of Hag-D2-Cup/ -Strep </a></legend>

<p>Aim: clone the expression vectors pET24d</p>

             <th scope="col">1x Mix (&micro;L)</th>

             <th scope="col">5x Mastermix (&micro;L)</th>

             <th scope="row">Phusion DNA-polymerase</th>

             <th scope="row">DNA (10-13 ng/&micro;l)</th>

<p>After the PCR the fragments were purified via gel extraction for further cloning steps. In the gel the digested vector pET24d was also purified.</p>

<p>pET24d = 20 ng/&micro;l, D2-Cup = 208 ng/&micro;l, D2-Strep = 180 ng/&micro;l</p>

<p>After the clean up the two fragments they had to be digested with <i>Nco</i>I and <i>Bam</i>HI in order to clone them into the digested pET24d vecor. </p>

             <th scope="col">D2-Cup (&micro;L)</th>

             <th scope="col">D2-Strep (&micro;L)</th>

             <th scope="row"><i>Nco</i>I</th>

             <th scope="row"><i>Bam</i>HI</th>

         <p>The restriction was performed for 1h at 37&deg;C (heating block).</p>       

<legend><a name="exp19.18"></a>19.18 Ligation of Hag-D2-Cup/ -Strep into digested pET24d</legend>

             <th scope="col">pET24d + D2-cup (&micro;L)</th>

             <th scope="col">pET24d + D2- Strep (&micro;L)</th>

<p>For the optimal ligation results the ligation calculator of the  iGEM team Dallas was used. Ligation was performed for 2h. Afterwards the ligase was inactivated at 65&deg;C for 15 min in order to improve the ligation/transformation result.</p>

<legend><a name="exp19.19">19.19 Transformation of pET24d with Hag-D2-Cup/ -Strep </a></legend>

<p>After the ligase inactivation the whole reaction mix was used to transform <i>E. coli</i> XL-blue which seem to be the best cells for important transformations. Standard transformation protocol was used.</p>

<p>The Gibson assembly plate showed sixteen colonies. All colonies were picked, transferred onto a master plate and into a premixed colony PCR. The same colonies were used to inoculate a miniprep.</p>

             <th scope="col">Master mix for 18 reactions (&micro;L)</th>

<p>The plasmids were isolated and digested with <i>Kpn</i>I and <i>Sac</i>I to test the insertion of the KS part I into pMAD. The expected sizes were 5054 bp and 6402 bp with the insert and pMAD only would yield in 4440 bp, 170 bp and 5054 bp fragments.</p>

<p>The clones 1, 2, 5, 7, 8, 9, 10, 11, 12 and 14 showed the expected results. The rest of the isolated plasmids were discarded.</p>

<p>The overnight cultures from 18.70 were harvested for 10 min at 4000 x g and the pellets were stored at -80&deg;C until use. </p>

<legend><a name="exp22.14">22.14 Start of the pMAD-transformation of <i>B. subtilis</I> WT3610 with pMAD-KSI</a></legend>

<p>Aim: integrate KS part I into the <i>amyE</i>  locus of the <i>B. subtilis</I> genome.</p>

<p>A preculture of 10 ml LB was inoculated with <i>B. subtilis</i> WT3610 cells and incubated at 37&deg;C over night.</p>

<p>Aim: Since no transformation of <em><i>B. subtilis</I></em> has worked yet, two new protocols should be tested, which require a huge amount of plasmid</p>

<p>The midi prep of the plasmids piGEM002 with the silver and copper promoters and the killswitch promoters was carried out according to the Qiagenmidiprep kit instructions. The isolated plasmids were tested via restriction with <i>Bam</i>HI and <i>Spe</i>I.</p>

<p>Precultures of all four strains (JH642, PY79, 168 and WT3610) were inoculated in 3 ml HS-medium and 10 ml LB and were incubated over night at 37&deg;C.</p>

<legend><a name="exp19.20">19.20 Test digest <i>Nco</i>I/<i>Bam</i>HI with pET24d-Hag-D2-Cup/ -Strep clones</a></legend>

<p>After the successful ligation (colonies in both plates), 5 clones per ligation have been inoculated in LB-Kan Medium for a later Mini-prep and test digest of the expression plasmids. Colonies with the numbers 6-10 were chosen as 1-5 did not grow over the day. 6-10 were incubated over night.</p>

<legend><a name="exp13.82"></a>13.82 Transformation of <em><i>B. subtilis</I></em> with the Nose-plasmids (Ag-/Cu-promoters, killswitch promoters) according to the HS/LS-protocol / Spizizen-medium protocol</legend>

<p>The only preculture, which was grown in HS was the JH642. Every other strain did not grow in High Salt medium. 20 ml of prewarmed (30&deg;C) Low Salt medium were inoculated with 1 ml of the HS culture and incubated in a shaking waterbath at 30&deg;C with 120 rpm for 3 hours. 5 &micro;g of the plasmids were preset in Eppendorf cups and 1 ml of the LS culture was transferred into these cups. piGEM002 was transformed as a control. These culture/plasmid mixes were incubated at 37&deg;C shaking at 200 rpm. After 2 hours of incubation the cells were centrifuged at 8000 rpm for 1.5 minutes, most of the medium was withdrawn,the cells were resuspended in the rest of the medium and plated out on LB-Cm plates that were incubated at 37&deg;C over night. Precultures of all strains were again inoculated, since many were not grown.</p>

<p>The precultures in LB medium were all grown. 10 ml Spizizens minimal medium were inoculated with an OD₆₀₀ of 0.1. The cultures were incubated at 37&deg;C until they reached an OD₆₀₀ of 1.5 &micro;g of DNA were mixed with 1 ml of the culture and incubated for further 2 hours. 200 and 500 &micro;l of each transformation sample were plated out on separate LB-Cm plates, which were incubated at 37&deg;C over night.</p>

<legend><a name="exp22.14"></a>22.14 pMAD-transformation of <i><i>B. subtilis</I></I> WT3610 with pMAD-KSI</legend>

<p>Aim: transformation of <i><i>B. subtilis</I></I> with the vector pMAD-KSI</p>

<p>10 ml of MNGE-medium were inoculated 1/100 with the preculture. This culture was grown at 37&deg;C with an agitation of 200 rpm until it reached OD 1.4. 5 &micro;g of he isolated plasmids pMAD-KSI from clone 1, 2, 10 and 11 (22.12) were used to perform four transformations. 400 &micro;l of the cells  were added to the plasmids in a test tube and were incubated at 37&deg;C 200 rpm for 1 hour. 100 &micro;l expression mix were added and the cells were incubated for another hour. Dilutions up to 10^-6 were carried out and the 10^-5 and 10^-6 dilutions were plated out on LB-MLS-X-Gal plates that were incubated at 30&deg;C for several days.</p>

<legend><a name="exp19.21"></a>19.21 test digest <i>Nco</i>I/<i>Bam</i>HI with pET24d-Hag-D2-Cup/ -Strep clones</legend>

             <th scope="col">1x Mix (&micro;L)</th>

             <th scope="col">11x Mastermix (&micro;L)</th>

             <th scope="row">CutSmart   Buffer</th>

             <th scope="row"><i>Nco</i>I</th>

             <th scope="row" style="height: 25px"><i>Bam</i>HI</th>

<p>Due to the sequencing results pET24d with Hag-D2-Cup is perfect (the plasmid map was compared to the sequence delivered by eurofins).</p>

<p>pET24d with Hag-D2-Strep cannot be used, since the strep tag seems to be lost. Therefore this plasmid will be cloned again from the beginning in order to exclude any mistakes at any step.</p>

<legend><a name="exp13.83">13.83 Repeated Transformation of <em><i>B. subtilis</I></em> with the Nose-plasmids (Ag-/Cu-promoters, killswitch promoters) according to the HS/LS-protocol</a></legend>

             <th scope="col">Amount (&micro;L)</th>

        </table>

<p>The fragment with the size of approx. 1300 bp was successfully amplified.</p>

<legend><a name="exp19.24">19.24 Digestion of Hag-D2-Strep</a></legend>

<p>Attempt I = 27 ng/&micro;l Attempt II = 35 ng/&micro;l</p>

<p>20 &micro;l reactions were prepared:</p>

             <th scope="col">Attempt I (&micro;L)</th>

             <th scope="col">Attempt II (&micro;L)</th>

             <th scope="row"><i>Nco</i>I</th>

             <th scope="row"><i>Bam</i>HI</th>

<legend><a name="exp19.24">19.24 Ligation of Hag-D2-Strep into digested pET24d</a></legend>

<p>In order to gain the complete expression vector the digested insert had to be ligated into digested pET24d. 20 &micro;l reaction mix was prepared, correct ratio of insert to vector was calculated with the iGEM ligation calculator. </p>

             <th scope="col">Amount (&micro;L)</th>

<legend><a name="exp19.25">19.25 Transformation of pET24d with Hag-D2-Strep</a></legend>

<p>Whole ligation mix was transformed into <i>E. coli</i> XL-1-Blue with the standard transformation protocol.</p>

<legend><a name="exp22.14">22.14 pMAD-transformation of <i><i>B. subtilis</I></I> WT3610 with pMAD-KSI</a></legend>

<p>Aim: transformation of <em><i>B. subtilis</I></em> with the vector pMAD-KSI</p>

<p>5 ml LB-MLS were inoculated with a blue colony of the trafo plates and incubated over night at 37&deg;C. Colonies of clone 1, 2, 10 and 11 were picked.</p>

<legend><a name="exp19.26">19.26 colony PCR of transformed <i><i>B. subtilis</I></I> WT3610 with pMAD-D2-Strep/Cup</a></legend>

<p>The transformation of <em><i>B. subtilis</I></em> WT3610 with the plasmids  

             <th scope="row">Colony in 50 &micro;l PBS</th>

<p>No positive clone could be detected.</p>

<legend><a name="exp23.1">23.11 Transformation of of pSB1C3 StrepDARPidin and pSB1C3 Hag-<i>Kpn</i>I in E. coli DH5&alpha;</a></legend>

<p>Standard <i>E. coli</i> transformation protocol was used. Cells were plated on LB-Cm, incubation over night at 37&deg;C.</p>

<legend><a name="exp19.26">19.26 Test restriction of pET24d with Hag-D2-Strep</a></legend>

<p>8 Clones from the ligation plates were inoculated in 5ml LB-Kan and incubated over night. Plasmids were extracted with the quiagen kit and digested with <i>Nco</i>I and <i>Bam</i>HI in order to check if Hag-D2-strep is in pET24d. </p>

             <th scope="row"><i>Nco</i>I</th>

             <th scope="row"><i>Bam</i>HI</th>

<p>Every picked  clone was positive so that clone 1 was sent for sequencing. The gel photo got lost unfortunately. pET24d-Hag-D2-Strep was named piGEM-030.</p>

<p>4 ml of LB-MLS were inoculated with 100 &micro;l of the precultures (in a test tube) and incubated at 30&deg;C and 210 rpm for 2 hours before switching the temperature of the incubator to 42&deg;C for 6 h. Dilutions up to 10^-6 were made and 10^-5 and 10^-6 were plated out on LB-MLS-XGal plates at 42&deg;C.</p>

<legend><a name="exp19.27">19.27 repeated colony PCR of transformed <i>B. subtilis</I> WT3610 with pMAD-D2-Strep/Cup</a></legend>