Team:Freiburg/Project/toolkit

From 2013.igem.org

(Difference between revisions)
Line 822: Line 822:
<ol>
<ol>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH<sub>2</sub>O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH<sub>2</sub>O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
-
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH<sub>2</sub>O. Digest for exact 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
+
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH<sub>2</sub>O. Digest for exactly 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH<sub>2</sub>O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH<sub>2</sub>O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
Line 964: Line 964:
<ol>
<ol>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
-
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exact 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
+
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exactly 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
Line 1,121: Line 1,121:
<ol>
<ol>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
-
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exact 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
+
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exactly 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
Line 1,277: Line 1,277:
<ol>
<ol>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
-
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exact 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
+
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exactly 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
Line 1,445: Line 1,445:
stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with  
stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with  
-
ddH2O. Digest for exact 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use  
+
ddH2O. Digest for exactly 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use  
DNA for the next step.</li>
DNA for the next step.</li>
Line 1,650: Line 1,650:
<ol>
<ol>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
-
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exact 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
+
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exactly 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
Line 1,784: Line 1,784:
<ol>
<ol>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
-
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exact 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
+
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exactly 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
Line 1,923: Line 1,923:
<ol>
<ol>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
-
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exact 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
+
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exactly 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
Line 2,069: Line 2,069:
<ol>
<ol>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
<li> <b>Oligo annealing:</b> Anneal forward and reverse oligo to get the desired crRNA. Therefore mix 10 µl of 100 µM forward Oligo, 10 µl of 100 µM reverse Oligo and 80 µl of ddH2O. Heat the solution to 95° C for 5 minutes. Then turn off the heat block and let the solution cool down.</li>
-
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exact 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
+
<li> <b>Digest plasmid BBa_K1150034 with Bbs1:</b> The restriction enzyme Bbs1 should always be stored at -80° C. Mix about 500 ng of BBa_K1150034 with 1 µl of Bbs1, appropriate amount of buffer and fill up to 50 µl with ddH2O. Digest for exactly 3 hours at 37° C. Load digest on a gel and cut the DNA band (2900 bp) out. Purify the gel slice and use DNA for the next step.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Ligate crRNAs (step 1) into Bbs1 cut backbone:</b> The insert (crRNAs) should be ligated into the backbone in 3 molar insert excess. Therefore use this formular: Required Volume of Insert = 3 x Volume(Backbone) x length(Insert) x concentration (Backbone) / [ length(Backbone)  x concentration(Insert) ]. Use about 50 ng Bacbbone. The length of insert is always 30 basepairs. The length of the backbone is 2900 basepairs. You have to mix the appropriate amount of Backbone and the appropriate amount of Insert with 1 µl of T4 Ligase and 2 µl of 10xT4 ligase buffer. Then fill up to 20 µl with ddH2O. This mix should incubate for 30 minutes at room temperature.</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>
<li> <b>Transform</b> 3-5 µl of the mix following <a id="link" href="https://2013.igem.org/Team:Freiburg/protocols#Transformation">standard protocol</a>. Pick clones, miniprep the plasmids and sequence it with pSB1C3 reverse sequencing primer (sequence: CGCCTTTGAGTGAGCTGATACCGC).</li>

Revision as of 00:05, 4 October 2013


The uniCAS toolkit - Customize your experiments!

You want to have a maximum of activation or repression of your genes by a minimal effort? Then you have to use the uniCAS toolkit provided by the iGEM team Freiburg 2013. All you have to do is:
  • Click yourself through the routine below
  • Order the appropriate plasmids and oligos
  • Conduct a minimal of cloning
  • Start your personalized experiment
By the end of the routine you will get a personal manual. All you need to use the uniCAS toolkit will be described there. Best of all: The uniCAS toolkit is all open source and in iGEM standard!