Difference between revisions of "Team:BNU-China/Protocol"

Revision as of 15:38, 14 October 2016

Team:BNU-CHINA - 2016.igem.org

PROTOCOL

Cloning

PCR

Reaction system:

1.

\(H_2 O\ \ 2\mu L\)

\(10\mathrm{x}\ \ Taq \ \ buffer \ \ 5\mu\mathrm{L}\)

\(2.5mM \ \ dNTP \ \ 1\mu\mathrm{L}\)

\(R+F-Primer \ \ 10\mu\mathrm{L}\)

\(Template \ \ 10\mu\mathrm{L}\)

\(Taq \ \ 2.5\mu\mathrm{L}\)

\(Universal \ \ DNA \ \ polymerase \ \ TransGen\)

2.

\(H_2 O\ \ 20\mu\mathrm{L}\)

\(5\mathrm{x}\ \ Taq\ \ buffer\ \ 10\mu\mathrm{L}\)

\(2.5mM\ \ dNTP\ \ 5\mu\mathrm{L}\)

\(R+F-Primer\ \ 44\mu\mathrm{L}\)

\(Template\ \ 10\mu\mathrm{L}\)

\(Taq\ \ 1\mu\mathrm{L}\)

3.

\(primeSTAR\ \ from\ \ Takara\)

\(H_2 O\ \ 21\mu\mathrm{L}\)

\(2\mathrm{x}\ \ primeSTAR\ \ 25m\mathrm{L}\)

\(R+F-Primer\ \ 2\mu\mathrm{L}\)

\(Template\ \ 2\mu\mathrm{L}\)

Process:

98°C 2min

\( \begin{equation} \left. \begin{array}{lcl} {98°C\ 10s} \\ {56°C\ 15s} \\{72°C\ 30s} \end{array} \right \} Cycle\ 35 \end{equation} \)

72°C 5min

4°C ---

98°C 2min

\(\begin{equation}\left. \begin{array}{lcl} {98°C\ 10s} \\ {55°C\ 5s} \\{72°C\ 8s} \end{array} \right\}Cycle\ 35\end{equation}\)

72°C 5min

15°C ---

Fusion PCR：

basic PCR
using the PCR product of step 1 as template does PCR
using the PCR product of step 2 as template does PCR，but first five cycles don’t add primer, after first five cycles, the sixth cycle adds primer and continue PCR.

The system of step 2:

\(H_2 O\ \ 21\mu\mathrm{L}\)

\(2\mathrm{x}\ \ primeSTAR\ \ 25m\mathrm{L}\)

\(R+F-Primer\ \ 2\mu\mathrm{L}\)

\(Template①\ \ 1\mu\mathrm{L}\)

\(Template②\ \ 1\mu\mathrm{L}\)

Electrophoresis---Gel Purification

Material:

Agarose gel: 1% agarose dissolved in 1 x TAE + gelstain

Protocol:

We used gelstain to stain the DNA and imaged it in a Transilluminator.

We used the gel extraction kit to get the objective fragment.

We used the DNA fragment purification kit to get the objective fragment.

Digestion

\(50\mu\mathrm{L} \ \ \mathrm{reaction \ \ system}\)
Reagent	10x \(\ \mathrm{H \ buffer}\)	\(Eco\mathrm{R}\ \mathrm{I}\)	\(Pat\ \mathrm{I}\)	\(\mathrm{Plasmid}\)	\(\mathrm{H_2 O}\)
Dosage	\(5\mu\mathrm{L}\)	\(1.5\mu\mathrm{L}\)	\(1.5\mu\mathrm{L}\)	\(15\mu\mathrm{L}\)	\(27\mu\mathrm{L}\)
\(10\mu\mathrm{L} \ \ \mathrm{reaction \ \ system}\)
Reagent	10x \(\ \mathrm{H \ buffer}\)	\(Eco\mathrm{R}\ \mathrm{I}\)	\(Pat\ \mathrm{I}\)	\(\mathrm{Plasmid}\)	\(\mathrm{H_2 O}\)
Dosage	\(1\mu\mathrm{L}\)	\(0.3\mu\mathrm{L}\)	\(0.3\mu\mathrm{L}\)	\(3\mu\mathrm{L}\)	\(5.4\mu\mathrm{L}\)

Ligation

Ligation reaction system
Reagent	DNA	Plasmid	T4 buffer	T4 ligase
Dosage	\(7\mu\mathrm{L}\)	\(1\mu\mathrm{L}\)	\(1\mu\mathrm{L}\)	\(1\mu\mathrm{L}\)

LR reaction

1. Entry linearization

β2-TOPO（plasmid concentration 117ng/μL） NotI 37°C enzyme digestion for the night

50μL Single enzyme system
10x BufferH	5μL
DNA	20μL
ddH₂O	12.5μL
Enzyme	2.5μL
0.1%BSA	5μL
0.1%Triton X-100	5μL

2. LR system (\(4\mu\mathrm{L}\)):

100 ng/ul linear Entry: 0.5 ul

destination vector: 1 ul (pCambia1300-nluc / pCambia1300-cluceach one)

LR Clonase II enzyme mix: 1 ul

ddH2O: 0.5 ul

mix slightly，water base for 5 h at 25°C

transform, 4 ul, reactant transform 50 ul competent cells

Transformation

Material:

LB liquid medium
Reagent	Tryptone	Yeast extract powder	NaCl
Reagent	10 g/L	5 g/L	10 μL

Protocol:

preparation of the competent cells

1μL ligation product + 50μL cells

Heatshock of Trans5α(42°C,45s)

Put on ice(2min)

Add 500μL LB media and incubate for 1h(37°C, 150rpm)

Centrifuge at 4000rpm for 1min and remove 400μL supernatant

Resuspend the pellets using the left supernatant

Spread plates(with Kan;CHL)

Incubate for 12~16h(37°C)

Protein Expression

Inoculated 3 mL LB media including relevant antibiotics with the monoclonal colony of expression plasmid, incubate for 12~16h(37°C, 190rpm)
Inoculated 100 mL TM expression media including relevant antibiotics with the 1mL bacteria liquid, incubate for 3h(37°C, 250rpm,OD600=0.6~0.8)
Add IPTG into it until its final concentration is 1mmol/L, incubate for 4~6h(37°C, 250rpm)
Centrifuge at 6000rpm for 10min and remove supernatant
Gather sediment, cryopreserve at -20°C

Material:

TM expression medium:1000mL PH=7.4

Reagent	tryptone	Yeast extract powder	NaCl	glucose	glycerol
Dosage	1.2g	2.4g	1.0g	1.0g	0.6mL

@@ Line 63: / Line 63: @@
                  <h5> The system of step 2: </h5>
                  <p>\(H_2 O\ \ 21\mu\mathrm{L}\)</p>
-                 <p>\(2\mathrm{x}\ \ primeSTAR\ \ 25Μl\)</p>
+                 <p>\(2\mathrm{x}\ \ primeSTAR\ \ 25m\mathrm{L}\)</p>
                  <p>\(R+F-Primer\ \ 2\mu\mathrm{L}\)</p>
                  <p>\(Template①\ \ 1\mu\mathrm{L}\)</p>
@@ Line 83: / Line 83: @@
                      </tr>
                      <tr>
-                         <td align="middle">Reagent</td>
+                         <td align="center">Reagent</td>
-                         <td align="middle">10x \(\ \mathrm{H \ buffer}\)</td>
+                         <td align="center">10x \(\ \mathrm{H \ buffer}\)</td>
-                         <td align="middle">\(Eco\mathrm{R}\ \mathrm{I}\)</td>
+                         <td align="center">\(Eco\mathrm{R}\ \mathrm{I}\)</td>
-                         <td align="middle">\(Pat\ \mathrm{I}\)</td>
+                         <td align="center">\(Pat\ \mathrm{I}\)</td>
-                         <td align="middle">\(\mathrm{Plasmid}\)</td>
+                         <td align="center">\(\mathrm{Plasmid}\)</td>
-                         <td align="middle">\(\mathrm{H_2 O}\)</td>
+                         <td align="center">\(\mathrm{H_2 O}\)</td>
                      </tr>
                      <tr>
-                         <td align="middle">Dosage</td>
+                         <td align="center">Dosage</td>
-                         <td align="middle">\(5\mu\mathrm{L}\)</td>
+                         <td align="center">\(5\mu\mathrm{L}\)</td>
-                         <td align="middle">\(1.5\mu\mathrm{L}\)</td>
+                         <td align="center">\(1.5\mu\mathrm{L}\)</td>
-                         <td align="middle">\(1.5\mu\mathrm{L}\)</td>
+                         <td align="center">\(1.5\mu\mathrm{L}\)</td>
-                         <td align="middle">\(15\mu\mathrm{L}\)</td>
+                         <td align="center">\(15\mu\mathrm{L}\)</td>
-                         <td align="middle">\(27\mu\mathrm{L}\)</td>
+                         <td align="center">\(27\mu\mathrm{L}\)</td>
                      </tr>
                      <tr>
@@ Line 104: / Line 104: @@
                      </tr>
                      <tr>
-                         <td align="middle">Reagent</td>
+                         <td align="center">Reagent</td>
-                         <td align="middle">10x \(\ \mathrm{H \ buffer}\)</td>
+                         <td align="center">10x \(\ \mathrm{H \ buffer}\)</td>
-                         <td align="middle">\(Eco\mathrm{R}\ \mathrm{I}\)</td>
+                         <td align="center">\(Eco\mathrm{R}\ \mathrm{I}\)</td>
-                         <td align="middle">\(Pat\ \mathrm{I}\)</td>
+                         <td align="center">\(Pat\ \mathrm{I}\)</td>
-                         <td align="middle">\(\mathrm{Plasmid}\)</td>
+                         <td align="center">\(\mathrm{Plasmid}\)</td>
-                         <td align="middle">\(\mathrm{H_2 O}\)</td>
+                         <td align="center">\(\mathrm{H_2 O}\)</td>
                      </tr>
                      <tr>
-                         <td align="middle">Dosage</td>
+                         <td align="center">Dosage</td>
-                         <td align="middle">\(1\mu\mathrm{L}\)</td>
+                         <td align="center">\(1\mu\mathrm{L}\)</td>
-                         <td align="middle">\(0.3\mu\mathrm{L}\)</td>
+                         <td align="center">\(0.3\mu\mathrm{L}\)</td>
-                         <td align="middle">\(0.3\mu\mathrm{L}\)</td>
+                         <td align="center">\(0.3\mu\mathrm{L}\)</td>
-                         <td align="middle">\(3\mu\mathrm{L}\)</td>
+                         <td align="center">\(3\mu\mathrm{L}\)</td>
-                         <td align="middle">\(5.4\mu\mathrm{L}\)</td>
+                         <td align="center">\(5.4\mu\mathrm{L}\)</td>
                      </tr>
                  </table>
@@ Line 127: / Line 127: @@
                      </tr>
                      <tr>
-                         <td align="middle">Reagent</td>
+                         <td align="center">Reagent</td>
-                         <td align="middle">DNA</td>
+                         <td align="center">DNA</td>
-                         <td align="middle">Plasmid</td>
+                         <td align="center">Plasmid</td>
-                         <td align="middle">T4 buffer</td>
+                         <td align="center">T4 buffer</td>
-                         <td align="middle">T4 ligase</td>
+                         <td align="center">T4 ligase</td>
                      </tr>
                      <tr>
-                         <td align="middle">Dosage</td>
+                         <td align="center">Dosage</td>
-                         <td align="middle">\(7\mu\mathrm{L}\)</td>
+                         <td align="center">\(7\mu\mathrm{L}\)</td>
-                         <td align="middle">\(1\mu\mathrm{L}\)</td>
+                         <td align="center">\(1\mu\mathrm{L}\)</td>
-                         <td align="middle">\(1\mu\mathrm{L}\)</td>
+                         <td align="center">\(1\mu\mathrm{L}\)</td>
-                         <td align="middle">\(1\mu\mathrm{L}\)</td>
+                         <td align="center">\(1\mu\mathrm{L}\)</td>
                      </tr>
                  </table>
@@ Line 148: / Line 148: @@
                  <table class="table">
                      <tr>
-                         <th style="text-align: center" colspan="2"> 50μL Single enzyme system:</th>
+                         <th style="text-align: center" colspan="2"> 50μL Single enzyme system</th>
                      </tr>
                      <tr>
-                         <td align="middle">10x BufferH</td>
+                         <td align="center">10x BufferH</td>
-                         <td align="middle">μL</td>
+                         <td align="center">5μL</td>
                      </tr>
                      <tr>
-                         <td align="middle">DNA</td>
+                         <td align="center">DNA</td>
-                         <td align="middle">20μL</td>
+                         <td align="center">20μL</td>
                      </tr>
                      <tr>
-                         <td align="middle">ddH<sub>2</sub>O</td>
+                         <td align="center">ddH<sub>2</sub>O</td>
-                         <td align="middle">12.5μL</td>
+                         <td align="center">12.5μL</td>
                      </tr>
                      <tr>
-                         <td align="middle">Enzyme</td>
+                         <td align="center">Enzyme</td>
-                         <td align="middle">2.5μL</td>
+                         <td align="center">2.5μL</td>
                      </tr>
                      <tr>
-                         <td align="middle">0.1%BSA</td>
+                         <td align="center">0.1%BSA</td>
-                         <td align="middle">5μL</td>
+                         <td align="center">5μL</td>
                      </tr>
                      <tr>
-                         <td align="middle">0.1%Triton X-100</td>
+                         <td align="center">0.1%Triton X-100</td>
-                         <td align="middle">5μL</td>
+                         <td align="center">5μL</td>
                      </tr>
                  </table>
                  <h4>2. LR system (\(4\mu\mathrm{L}\)):</h4>
-ng/ul linear Entry: 0.5 ul
+                 <p>100 ng/ul linear Entry: 0.5 ul</p>
+                <p>destination vector: 1 ul (pCambia1300-nluc / pCambia1300-cluceach one)</p>
+                <p>LR Clonase II enzyme mix: 1 ul</p>
+                <p>ddH2O: 0.5 ul</p>
+                <p>mix slightly，water base for 5 h at 25&#176;C </p>
+                <p>transform, 4 ul, reactant transform 50 ul competent cells</p>
                  <h2>Transformation</h2>
                  <h3>Material:</h3>
+                <table class="table">
+                    <tr>
+                        <th colspan="4" style="text-align: center">LB liquid medium</th>
+                    </tr>
+                    <tr>
+                        <td align="center">Reagent</td>
+                        <td align="center">Tryptone</td>
+                        <td align="center">Yeast extract powder</td>
+                        <td align="center">NaCl</td>
+                    </tr>
+                    <tr>
+                        <td align="center">Reagent</td>
+                        <td align="center">10 g/L</td>
+                        <td align="center">5 g/L</td>
+                        <td align="center">10 μL</td>
+                    </tr>
+                </table>
                  <h3>Protocol:</h3>
+                <p> preparation of the competent cells </p>
+                <p> 1μL ligation product + 50μL cells </p>
+                <p>Heatshock of Trans5α(42&#176;C,45s)</p>
+                <p>Put on ice(2min)</p>
+                <p>Add 500μL LB media and incubate for 1h(37&#176;C, 150rpm)</p>
+                <p>Centrifuge at 4000rpm for 1min and remove 400μL supernatant</p>
+                <p>Resuspend the pellets using the left supernatant</p>
+                <p>Spread plates(with Kan;CHL)</p>
+                <p>Incubate for 12~16h(37&#176;C)</p>
+                <h2>Protein Expression</h2>
+                <ol>
+                    <li>Inoculated 3 mL LB media including relevant antibiotics with the monoclonal colony of expression plasmid, incubate for 12~16h(37&#176;C, 190rpm)</li>
+                    <li>Inoculated 100 mL TM expression media including relevant antibiotics with the 1mL bacteria liquid, incubate for 3h(37&#176;C, 250rpm,OD600=0.6~0.8)</li>
+                    <li>Add IPTG into it until its final concentration is 1mmol/L, incubate for 4~6h(37&#176;C, 250rpm)</li>
+                    <li>Centrifuge at 6000rpm for 10min and remove supernatant</li>
+                    <li>Gather sediment, cryopreserve at -20&#176;C</li>
+                </ol>
+                <p>Material:</p>
+                <p>TM expression medium:1000mL  PH=7.4</p>
+                <table class="table">
+                    <tr>
+                        <td align="center">Reagent</td>
+                        <td align="center">tryptone</td>
+                        <td align="center">Yeast extract powder</td>
+                        <td align="center">NaCl </td>
+                        <td align="center">glucose </td>
+                        <td align="center">glycerol</td>
+                    </tr>
+                    <tr>
+                        <td align="center">Dosage</td>
+                        <td align="center">1.2g</td>
+                        <td align="center">2.4g</td>
+                        <td align="center">1.0g</td>
+                        <td align="center">1.0g</td>
+                        <td align="center">0.6mL</td>
+                    </tr>
+                </table>