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Latest revision as of 10:46, 7 September 2013

Iron coli project

Protocols: BioBricks' Conception

Protocols: BioBricks' Characterization

Primers

JUNE

JULY

AUGUST

SEPTEMBER

OCTOBER

Week 4: 8^th July - 14^th July

Monday, July 8th

We prepared the BL21 and BG1655 strains to be competent.

Tuesday, July 9th

Both strain are not contaminated.

BL21 are highly competent, BG1655 are little competent.

Wednesday, July 10th

PCR procedure optimization

Aim: Define the number of matrix of optimal DNA to amplify a gene by PCR.

Data:

[primer] = --- ng/µl

size(primer) = --- nt

For PCR we chose to use … ng of primer (V=…µL). As we know the size of our primers, we could define the number of primers that we have to use to begin the reaction. We define the number of recquired matrix DNA in terms of concentration of sample with the following formula:

AJOUTER LA FORMULE

Analysis of Agarose gel's results:

AJOUTER LA PHOTO LEGENDEE

Extraction of natural promoter sequence

Aim: We want to have sequences genes' promoters' sequences under the control of FUR (Ferric Uptake Regulation)transcription factor.

We remake PCR samples that failed the previous week.

Fec A
Ent C
Fec C
Ace B

PCR products are placed on gel and purificate. After, PCR products are tested with nanodrop.

Fec A (BG1655)
[c] = 23.7 ng/µl
260/280 = 1.90

Fec A (BL21)
[c] = 53.1 ng/µl
260/280 = 1.73

Ent C (BG1655)
[c] = 52.4 ng/µl
260/280 = 1.71

Ent C (BL21)
[c] = 50.0 ng/µl
260/280 = 1.94

Ace B (BG1655)
[c] = 46.5 ng/µl
260/280 = 1.89

Fec C (BG1655)
[c] = 34.2 ng/µl
260/280 = 1.91

Tris-HCl solution preparation(1M) : Stock solution 100X

Aim: Tris-HCl solution will be use in a final concentration of 10 mM to resuspend our primers.

Preparation of the stock solution (1 M, pH 7.5) for a volume of 50 mL:

Disolve 4,6g of Trisbase in 30 mL of distilled water.
Adjust pH with concentrated HCl(~4 mL) until pH=7,5.
Add distilled water until 50 mL then put in autoclave.

Note: If the solution has a yellow coloration, do the preparation again with better Trisbase.

Preparation of the solution (10mM, pH 7.5) for a volume of 50 mL.
Take 50µL of the stock solution at 1M and add 49.5 mL of water for the dilution.

Kanamycin preparation

Preparation of 3 tubes of 1.5 mL of Kanamycin.

Thursday, July 11

Preparation of primers solution:

Centrifugate tubes at 8000 rpm, begin 30 seconds.
Add 250 µL of Tris HCl (10 mM); [Primer] = 100µM

We prepare a diluted solution at 5 µM from to the stock solution, for PCR reactions.
Dilution at 1/20: We take 5 µL of the stock solution (100 µM) and we diluate in 95 µL of tris-HCl (10 mM).

Transformation of BL21:

Chemical transformation of BL21 with Cyrille's samples:

Terminator (T)
Promotor (P)
Plasmid 1K3
Plasmid 1C3
sfGFP

These transformations allow us to do glycerols of these constrctions.

PCR on E.coli genom (BG1655 strain)

Fep A (Primers P021 and P022)
Fes (Primers P023 and P024)
sdh C (Primers P025 and P026)
ybi L (Primers P027 and P028)
ync E (Primers P029 and P030)

Friday, July 12

Transformations test

Terminator (T) = OK
Promotor (P) = OK
Plasmid 1K3 = OK
Plasmid 1C3 = OK
sfGFP = OK

Note : The negative control was suspect.

Petri dishes are le on the bench at room temperature during the week-end, colonies will be reisolate next week.

Migration of samples of PCR extraction.

pcr 12-07

The promoter sequence of genes Fep A, Fes, Sdh C, ybi L and ync E were extracted successfully.
Samples were purified and, after, tested with nanodrop.

Fep A (BG1655)
[c] = 38.3 ng/µl
260/280 = 1.93

Fes (BG1655)
[c] = 45.5 ng/µl
260/280 = 1.89

Sdh C (BG1655)
[c] = 28.5 ng/µl
260/280 = 1.86

ybi L (BG1655)
[c] = 31.0 ng/µl
260/280 = 2.09

ync E (BG1655)
[c] = 25.1 ng/µl
260/280 = 1.93

Voir s'il ne faut pas faire le tableau recap des extractions

@@ Line 3: / Line 3: @@
 <html>
-<h1><MAP>Week</MAP> 4: 8th July - 14th July</h1>
+<div id="mainTextcontainer">
+<h1>Week 4: 8<sup>th</sup> July - 14<sup>th</sup> July</h1>
 <h2> Monday, July 8th </h2>
@@ Line 35: / Line 37: @@
 <p>
-<b><u>But :</u> Déterminer le nombre de matrice d'ADN optimal pour amplifier un gène par PCR</b><br/><br/>
+<b><u>Aim:</u> Define the number of matrix of optimal DNA to amplify a gene by PCR.</b><br/><br/>
-<b><u>Données :<br/></u>
+<b><u>Data:<br/></u>
 </p>
 <ul>
 <li> [primer] = --- ng/µl<br/>
-<li> taille (primer) = --- nt<br/>
+<li> size(primer) = --- nt<br/>
 </ul></b><br/>
 <p>
-Pour les PCR nous avons choisi d'utiliser --- ng de primer (V = --- µl). Connaissant la longueur de nos primer, nous avons pu déterminer le nombre de primer que nous utilisons lors de la réaction.<br/>
+For PCR we chose to use … ng of primer (V=…µL). As we  know the size of our primers, we could define the number of primers that we have to use to begin the reaction.
-Grâce à la formule suivante nous avons déterminer le nombre de matrice à prélever en fonction de la concentration de l'échantillon.<br/><br/>
+We define the number of recquired matrix DNA in terms of concentration of sample with the following formula:
+<br/><br/>
 <b> AJOUTER LA FORMULE </b><br/><br/>
-Analyse des résultats sur gel d'agarose :<br/><br/>
+Analysis of Agarose gel's results:<br/><br/>
 <b> AJOUTER LA PHOTO LEGENDEE </b> <br/>
 </p>
-<h3> Extraction de séquences de promoteurs naturels </h3>
+<h3> Extraction of natural promoter sequence </h3>
 <p>
-But : On veut récupérer les séquences des promoteurs de gènes sous le contrôle du facteur de transcription FUR (Ferric Uptake Regulation) <br/><br/>
+<b><u>Aim:</u></b>  We want to have sequences genes' promoters' sequences under the control of FUR (Ferric Uptake Regulation)transcription factor. <br/><br/>
-On refait les PCR pour les échantillons qui ont échoué la semaine dernière.<br/>
+We remake PCR samples that failed the previous week.<br/>
 </p>
    <ul>
@@ Line 69: / Line 72: @@
 <br/>
 <p>
-Les produits de PCR son ensuite déposés sur gel puis purifiés avant d'être dosé au Nanodrop.<br/><br/>
+PCR products are placed on gel and purificate. After, PCR products are tested with nanodrop.<br/><br/>
-AJOUTER LA PHOTO DU GEL
 </p>
@@ Line 124: / Line 126: @@
      </td>
    </tr>
 </table>
-<h3>Préparation d'une solution de Tris-HCl (1M) - Solution mère 100 X</h3>
+<img src="https://static.igem.org/mediawiki/2013/9/9b/PCR_10-07.png" alt="pcr 10-07" width=250 />
+<h3>Tris-HCl solution preparation(1M) : Stock solution 100X</h3>
 <p>
-But : La solution de Tris-HCl sera utilisée, à une concentration finale de 10 mM, pour resuspendre les nos primers.<br/>
+<b><u>Aim:</u></b> Tris-HCl solution will be use in a final concentration of 10 mM to resuspend our primers.<br/>
 </p>
-<u>Préparation pour un volume de 50 mL :</u><br/>
+<u>Preparation of the stock solution (1 M, pH 7.5) for a volume of 50 mL:</u><br/>
    <ol>
-      <li> Dissoudre 4.6 g de trizbase dans 30 mL d'eau.
+<br><br/>
-      <li> Ajuster le pH de la solution à 7.5 avec du HCl concentré ([c] = --- mol/L // volume ajouter ~ 4 mL).
+      <li> Disolve 4,6g of Trisbase in 30 mL of distilled water.
-      <li> Ajuster ensuite le volume de la solution à 50 mL en ajoutant de l'eau.
+      <li> Adjust pH with concentrated HCl(~4 mL) until pH=7,5.
-     <li> Autoclaver la solution.
+      <li>Add distilled water until 50 mL then put in autoclave.
    </ol> <br/>
 <p>
-<b><u>Remarque :</u> Si la solution est jaune, il faut la recommencer avec du Tris de meilleur qualité.</b>
+<b><u>Note: </u> If the solution has a yellow coloration, do the preparation again with better Trisbase.</b>
+<br/><br/>
+<u>Preparation of the solution (10mM, pH 7.5) for a volume of 50 mL.</u><br/>
+Take 50µL of the stock solution at 1M and add 49.5 mL of water for the dilution.
 </p>
-<h3>Préparation de Kanamycine</h3>
+<h3>Kanamycin preparation</h3>
 <p>
-Préparation de 3 tubes de 1.5 mL de Kanamycine.
+Preparation of 3 tubes of 1.5 mL of Kanamycin.
 </p>
-<h2>Jeudi 11 Juillet</h2>
+<h2>Thursday, July 11</h2>
-<h3>Mise en solution des primers</h3>
+<h3>Preparation of primers solution:</h3>
    <ol>
-     <li>Centrifugation des tubes 8000 rpm, pendant 30 secondes.
+     <li>Centrifugate tubes at 8000 rpm, begin 30 seconds.
-     <li>Ajouter 250 µl de Tris HCl (10 mM) - [Primer] = 100 µM
+     <li>Add 250 µL of Tris HCl (10 mM); [Primer] = 100µM
    </ol>
 <p>
-On prépare ensuite une solution fille à 5 µM, à partir de la solution stock, pour les réactions de PCR. <br/>
+We prepare a diluted solution at 5 µM from to the stock solution, for PCR reactions. <br/>
-Dilution à 1/20 : on prélève 5 µL de la solution stock à 100 µM que l'on dilue dans 95 µL de Tris-HCl (10 mM).
+Dilution at 1/20: We take 5 µL of the stock solution (100 µM) and we diluate in 95 µL of tris-HCl (10 mM).
-</p>
-<h3>Transformation de BL21</h3>
+<h3>Transformation of BL21:</h3>
 <p>
-Transformation chimique de BL21 avec les échantillons de Cyrille :
+Chemical transformation of BL21 with Cyrille's samples:
-</p>
    <ul>
-     <li> Terminateur (T)
+     <li> Terminator (T)
-     <li> Promoteur (P)
+     <li> Promotor (P)
-     <li> Plasmide 1K3
+     <li> Plasmid 1K3
-     <li> Plasmide 1C3
+     <li> Plasmid 1C3
      <li> sfGFP
    </ul>
 <p>
-Ces transformations nous permettrons de faire des glycérols ce ces constructions.
+These transformations allow us to do glycerols of these constrctions.
 </p>
-<h3>PCR sur le génome de E.coli (souche BG1655)</h3>
+<h3>PCR on E.coli genom (BG1655 strain)</h3>
    <ul>
-     <li> Fep A (Primers P021 et P022)
+     <li> Fep A (Primers P021 and P022)
-     <li> Fes (Primers P023 et P024)
+     <li> Fes (Primers P023 and P024)
-     <li> sdh C (Primers P025 et P026)
+     <li> sdh C (Primers P025 and  P026)
-     <li> ybi L (Primers P027 et P028)
+     <li> ybi L (Primers P027 and P028)
-     <li> ync E (Primers P029 et P030)
+     <li> ync E (Primers P029 and P030)
    </ul>
-<h2>Vendredi 12 Juillet</h2>
-<h3>Vérification des transformations</h3>
+<img src="https://static.igem.org/mediawiki/2013/7/75/PCR_11-07.png" alt="pcr 11-07" width=250 />
+<h2>Friday, July 12</h2>
+<h3>Transformations test</h3>
    <ul>
-     <li> Terminateur (T) = OK
+     <li> Terminator (T) = OK
-     <li> Promoteur (P) = OK
+     <li> Promotor (P) = OK
-     <li> Plasmide 1K3 = OK
+     <li> Plasmid 1K3 = OK
-     <li> Plasmide 1C3 = OK
+     <li> Plasmid 1C3 = OK
      <li> sfGFP = OK
    </ul>
 <p>
-<b><u>Remarque :</u> Il y avait une faille dans le contrôle négatif.</b> <br/><br/>
+<b><u>Note :</u> The negative control was suspect.</b> <br/><br/>
-Les boites de Pétri sont laissés sur la paillasse à température ambiante pour le week-end, les colonies seront repiquée la semaine prochaine. <br/>
+Petri dishes are le on the bench at room temperature during the week-end, colonies will be reisolate next week. <br/>
 </p>
-<h3>Migration des échantillons d'extraction de PCR</h3>
+<h3>Migration of samples of PCR extraction.</h3>
 <p>
-AJOUTER LA PHOTO DU GEL AVEC LEGENDE DU PLAN DE MIGRATION <br/><br/>
+<img src="https://static.igem.org/mediawiki/2013/b/b1/PCR_12-07.png" alt="pcr 12-07" width=300 /> <br/><br/>
-Les séquence des promoteur des gènes Fep A, Fes, Sdh C, ybi L et ync E ont été extraites avec succès. <br/>
-Les échantillons ont été purifiés puis dosés au Nanodrop. <br/>
+The promoter sequence of genes Fep A, Fes, Sdh C, ybi L and ync E were extracted successfully.<br/>
+Samples were purified and, after, tested with nanodrop.<br/>
 </p>
@@ Line 258: / Line 270: @@
 </table>
+<h1>Voir s'il ne faut pas faire le tableau recap des extractions</h1>
-<script type="text/javascript">writeFooter()</script>
+</div>
+</div>
 </html>
+{{:Team:Evry/foot}}

Team:Evry/Notebook/w4