Difference between revisions of "Team:TCU Taiwan/Notebook/Lab"

 
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&bull;&nbsp;We seeded E.coli DH5α which have plasmid p-BluescriptⅡSK(-).
+
&bull;&nbsp;culture DH5α.
 
   </td>
 
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&bull;&nbsp;Isolated of p-BluescriptⅡSK(-) plasmid for twenty tubes and detected the  plasmid concentration to make sure whether we isolated the plasmid .<br>
+
&bull;&nbspp-Biuescript plasmid purification<br>
       &bull;Add restriction enzyme speⅠ to the one of twenty plasmid tubes , the tube #4 , in order to produce vector , and run gel electrophoresis for detection .<br>
+
       &bull;p-Biuescript plasmid digest with SpeI<br>
 
       &bull;&nbsp;The senior brother teach us how to do restriction enzyme cutting<br>
 
       &bull;&nbsp;The senior brother teach us how to do restriction enzyme cutting<br>
       &bull;&nbsp;Due to produce more plasmid,we decide to do again bacterial culture<br>
+
       &bull;&nbsp;Culture DH5α with p-Biuescript plasmid<br>
 
       &bull;&nbsp;p-Biuescript plasmid purification by ourselves<br>
 
       &bull;&nbsp;p-Biuescript plasmid purification by ourselves<br>
 
</td>
 
</td>
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&bull;&nbsp;Pumping plasmid.But the result is not ideal , it was decide to do again bacterial culture next day. 
+
&bull;&nbsp; p-Biuescript plasmid purification<br>
 +
  Enzyme digest p-Biuescript plasmid by EcoRI
 +
 
 
</td>
 
</td>
 
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       &bull;&nbsp;Professor Ji Hshiung Chen teach us to do restriction enzyme cutting effectively.<br>
+
       &bull;&nbsp;culture DH5α with p-Biuescript plasmid<br>
      &bull;&nbsp;Bacterial culture<br>
+
 
      &bull;&nbsp;Culture DH5α with p-Biuescript plasmid<br>
+
 
     </td>
 
     </td>
 
   </tr>
 
   </tr>
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&bull;&nbsp;Pumping plasmid<br>
+
&bull;&nbsp; p-Biuescript plasmid purification<br>
&bull;&nbsp;Bacterial culture<br>
+
&bull;&nbsp;p-Biuescript plasmid digest with SpeI<br>
 
     </td>
 
     </td>
 
     </tr>
 
     </tr>
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&bull;&nbsp;Pumping plasmid<br>
+
&bull;&nbsp;plasmid purification<br>
&bull;&nbsp;Professor Ji Hshiung Chen teach us the methods to pump the plasmid sooner.
+
 
 
       </td>
 
       </td>
 
     </tr>
 
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&bull;&nbsp;We make the speⅠ and the EcoRⅠ to cut plasmid.<br>
+
&bull;&nbsp;enzyme digestion enzyme by <I>SpeI</I> and <I>EcoRI<br><I>
 
&bull;&nbsp;According to the method by Professor Ji Hshiung Chen,try theenzyme Spe I and the EcoR I from differnt brands.
 
&bull;&nbsp;According to the method by Professor Ji Hshiung Chen,try theenzyme Spe I and the EcoR I from differnt brands.
 
     </tr>
 
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&bull;&nbsp;We make the speⅠ and the EcoRⅠ to cut plasmid.
+
&bull;&nbsp; enzyme digestion used<I>SpeI</I> and <I>EcoRI<br><I> cut p-Biuescript plasmid
 
     </tr>
 
     </tr>
 
   </table>
 
   </table>
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&bull;&nbsp;The senior teach us transformation,pQE60 transform into DH5α
+
&bull;&nbsp; pQE60 transform into DH5α
 
     </td>
 
     </td>
 
   </tr>
 
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&bull;&nbsp;Culture DH5α with pQE60
+
&bull;&nbsp;culture DH5α with pQE60
 
     </td>
 
     </td>
 
   </tr>
 
   </tr>
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       &bull;&nbsp;Pumping the plasmid of  PQE60<br>
+
       &bull;&nbsp;pQE60 plasmid purification
       &bull;&nbsp;Bacterial culture
+
       &bull;&nbsp;Culture DH5α with pQE60
 
     </td>  
 
     </td>  
 
     </tr>
 
     </tr>
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&bull;&nbsp;We make the enzyme <I>BamH</I>Ⅰ and the enzyme <I>Nco</I>Ⅰ to cut plasmid.<br>
+
&bull;&nbsp;pQE60 plasmid digest with enzyme <I>BamH</I> I and <I>Nco</I><br>
&bull;&nbsp;pQE60 plasmid digest with enzyme <I>BamH</I> I and <I>Nco</I> I
+
 
     </td>
 
     </td>
 
   </tr>
 
   </tr>
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&bull;&nbsp;We make the enzyme <I>BamHⅠ</I> and the enzyme <I>Nco</I>Ⅰ to cut plasmid.<br>
+
&bull;&nbsp;pQE60 plasmid digest with enzyme <I>BamHⅠ</I> and <I>Nco</I>.<br>
&bull;&nbsp;pQE60 plasmid digest with enzyme <I>BamH</I> I and <I>Nco</I> I<br>
+
 
&bull;&nbsp;Gel extraction pQE60 with <I>BamH</I> I and <I>Nco</I> I digesting
 
&bull;&nbsp;Gel extraction pQE60 with <I>BamH</I> I and <I>Nco</I> I digesting
 
     </td>
 
     </td>
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&bull;&nbsp;Restriction enzyme cutting<br>
 
 
&bull;&nbsp;pQE60 plasmid digest with enzyme <I>BamH</I> I and <I>Nco</I> I  
 
&bull;&nbsp;pQE60 plasmid digest with enzyme <I>BamH</I> I and <I>Nco</I> I  
 
     </td>
 
     </td>
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&bull;&nbsp;Practice for the first animal model
+
&bull;&nbsp;practice animal experiment
 
       </td>
 
       </td>
 
     </tr>
 
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&bull;&nbsp;Practice for the second animal model
+
&bull;&nbsp;practice animal experiment
 
       </td>
 
       </td>
 
     </tr>
 
     </tr>
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&bull;&nbsp;Help the mice to change gressing for the first practice
+
&bull;&nbsp;practice animal experiment
 
       </td>
 
       </td>
 
     </tr>
 
     </tr>

Latest revision as of 22:15, 18 September 2015


June

June 7th ,2015

• Cultured cells
  < Exchange medium >
    1. Suction whole medium
    2. Add3-5c.c.PBS, and shaking gently to clean
    3. Suck out PBS
    4. Add 7-10c.c. medium
    5. Returned to the incubator

June 13rd ,2015;

• The senior teach us to Bacterial culture.

June 14th ,2015

• The senior teach us plasmid purification.

June 15th ,2015

• The senior teach us to test the concentration of the plasmid.

July

July 1st ,2015

• culture DH5α.

July 2nd ,2015

•&nbspp-Biuescript plasmid purification
•p-Biuescript plasmid digest with SpeI
• The senior brother teach us how to do restriction enzyme cutting
• Culture DH5α with p-Biuescript plasmid
• p-Biuescript plasmid purification by ourselves
p-Biuescript plasmid digest with Spe I
culture DH5α with p-Biuescript plasmid

July 3rd ,2015

•  p-Biuescript plasmid purification
Enzyme digest p-Biuescript plasmid by EcoRI

July 4th ,2015

• culture DH5α with p-Biuescript plasmid

July 5th ,2015

•  p-Biuescript plasmid purification
• p-Biuescript plasmid digest with SpeI
p-Biuescript plasmid purification
p-Biuescript plasmid digest with Spe I

July 6th ,2015

• plasmid purification

July 7th ,2015

• enzyme digestion enzyme by SpeI and EcoRI
• According to the method by Professor Ji Hshiung Chen,try theenzyme Spe I and the EcoR I from differnt brands.

July 8th ,2015

•  enzyme digestion usedSpeI and EcoRI
cut p-Biuescript plasmid

July 12nd ,2015

•  pQE60 transform into DH5α

July 13rd ,2015

• culture DH5α with pQE60

July 14th ,2015

• pQE60 plasmid purification • Culture DH5α with pQE60
pQE60 plasmid purification
culture DH5α with pQE60

July 15th ,2015

• pQE60 plasmid purification

July 17th ,2015

• pQE60 plasmid digest with enzyme BamH I and Nco

July 18th ,2015

• pQE60 plasmid digest with enzyme BamHⅠ and Nco.
• Gel extraction pQE60 with BamH I and Nco I digesting

July 20th ,2015

• pQE60 plasmid digest with enzyme BamH I and Nco I

July 21st ,2015

• pQE60 plasmid digest with enzyme BamH I and Nco I

July 22nd ,2015

• gel electrophoresi

July 23rd ,2015

• Gel extraction pQE60 with BamH I and Nco I digesting

July 25th ,2015

• Gel extraction pQE60 with BamH I and Nco I digesting

July 27th ,2015

• practice animal experiment

July 28th ,2015

• practice animal experiment

July 31st ,2015

• practice animal experiment

August

Aug. 1st ,2015

• Help the mice to change gressing for the second practice

Aug. 5th ,2015

•  * PCR signiferin
2% gel. The PCR product of signiferin should be 100~200 bp. But, there isn’t any band on it. Therefore, we consider that we PCR fail.

Aug. 6th ,2015

•  * PCR signiferin
2% gel. The PCR product of signiferin should be 100~200 bp. As the result, there is band between 100~200 bp on sample 2 so we consider it is correct.

Aug. 7th ,2015

•  * PCR signiferin

Aug. 9th ,2015

•  * PCR signiferin

Aug. 11st ,2015

•  Gel extraction signiferin

Aug. 12nd ,2015

•  ligation signiferin into TA clone

Aug. 13rd ,2015

•  transformation (TA clone with signiferin)

Aug. 14th ,2015

•  Culture DH5α with pQE60

Aug. 15th ,2015

•  signiferin TA plasmid purification

0.8% gel. The size of TA plasmid with signiferin insert should be 2000~3000 bp. In addition, plasmid will become sorpercoil so it will run faster. Therefore, we consider these are the correct plasmid.

Aug. 16th ,2015

•  pQE60 plasmid digest with enzyme BamH I and Nco I biobrick digest with enzyme EcoRI and Pst I

2% gel. The size of signiferin insert should be 100~20 bp. In addition, the signiferin insert in biobrick should be a little bigger than in pQE60. As the result, these two are all the correct sample we need.

Aug. 17th ,2015

•  gel extraction of signiferin insert

Aug. 18th ,2015

•  gel extraction of pQE60 vector
• Transform Epi-1 plasmid into DH5α
• Ligate pQE60 vector and signiferin insert

Aug. 19th ,2015

•  backbone enzyme digestion
•  Ligate backbone vector and signiferin insert
•  Culture DH5α with Epi-1 plasmid
• Transform pQE60 vector with signiferin insert into DH5α

Aug. 20th ,2015

•  plasmid purification of pQE60 vector with signiferin insert
0.8% gel. There are band on sample 1~7 of pQE60 plasmid with signiferin insert, but the size of our plasmid should be 3000 to 4000. As the result, these samples are not the plasmid we need.

Aug. 21st ,2015

•  PCR Epi-1 insert
2% gel. It is the correct size that Epi-1 PCR product have band between 200~300 bp. But, there is also band on blank. We consider it was polluted when we add reagent.
•  ligate TA vector and Epi-1 insert •  plasmid purification of pQE60 vector with signiferin insert
0.8% gel. The size of our plasmid should be 3000 to 4000. As the result, these samples are the plasmid we need.
•  enzyme digestion to check the clone of pQE60 vector with signiferin insert
2% gel. The signiferin insert should have band between 100~200 bp. We consider that maybe we didn’t ligate it into pQE60.

Aug. 22rd ,2015

•  transform TA vector with Epi-1 insert into DH5α
•  Transform pQE60 vector with signiferin insert into DH5α
•  Plasmid purification of pQE60 plasmid with signiferin insert
•  Plasmid purification of backbone with signiferin insert
0.8% gel. The size of signiferin biobrick should be 2000~3000 bp, and the size of pQE60 plasmid with signiferin should be 3000~4000 bp. In addition, the plasmid will become surpercoil so it will run faster. Therefore, they are all correct plasmid.

Aug. 23rd ,2015

•  enzyme digestion to check the clone of pQE60 vector with signiferin insert
2% gel. The size of signiferin insert should be 100 to 200 bp. But, there are no band on each sample. We consider that the signiferin insert have not been ligated.
•  Enzyme digestion to check the clone of biobrick with signiferin
2% gel. The size of signiferin insert should be 100 to 200 bp. There is band on the sample 2 of enzyme digest product. As the result, we can make sure that the signiferin has been ligated in backbone.
•  Culture TA clone with Epi-1 insert
• Culture pQE60 with signiferin insert
• Backbone digestion

Aug. 24th ,2015

•  Plasmid purification of pQE60 plasmid with signiferin insert
0.8% gel. The size of pQE60 plasmid with signiferin should be 3000~4000 bp, and the plasmid will become surpercoil so it will run faster. Therefore, there was no correct sample.
Plasmid purification of Epi-1 TA clone
Plasmid purification of signiferin biobrick

Aug. 25th ,2015

•  Enzyme digestion (TA clone of Epi-1)
2% gel. The size of Epi-1 is about 200 to 300 bp. There are bands on sample 2 and 3. As the result, it have ligated into TA clone.
Gel extraction
Enzyme digestion to check the clone of biobrick with signiferin
Bacteria culture (signiferin biobrick, signiferin pQE60, TA clone of signiferin, TA clone of Epi-1)

Aug. 26th ,2015

•  plasmid purification
0.8% gel. The size of TA plasmid with Epinecidin-1 insert should be 2000~3000 bp. In addition, plasmid will become sorpercoil so it will run faster. Therefore, we consider these are the correct plasmids.
Enzyme digestion
Backbone with Epi-1 insert into DH5α

Aug. 27th ,2015

•  enzyme digestion to check clone of biobrick with signiferin and pQE60 with signiferin
Enzyme digest pQE60 vector of Epi-1
2% gel. The size of Epi-1 insert should be 100~20 bp. As the result, both of them have the correct bands.
Gel extraction
Gel extraction of signiferin and Epi-1 insert
Ligate pQE60 vector with signiferin and backbone with Epi-1

Aug. 28th ,2015

•  gel extraction (vector of Epi-1and insert of Epi-1)
0.8% gel. The size of our plasmid should be 3000 to 4000. As the result, these samples are the plasmid we need.
Bacteria culture (Epi-1 biobrick, signiferin biobrick and pQE60 with signiferin)
Plasmid purification (Epi-1 biobrick, pQE60 with signiferin and signiferin biobrick)

Aug. 29th ,2015

•  transform plasmid into DH5α (pQE60 with signiferin, backbone eith Epi-1 and pQE60 with Epi-1)
•  PCR pQE60 with signiferin and signiferin biobrick to check clone
•  Ligate pQE60 vector with Epi-1
• Bacteria culture (TA clone with Epi-1, pQE60 with signiferin, Epi-1 biobrick)
• Plasmid purification (pQE60 with signiferin, TA clone with Epi-1)

Aug. 30th ,2015

•  PCR pQE60 with signiferin to check clone
• Enzyme digestion of Epi-1 TA clone and pQE60 with Epi-1
• Plasmid purification (Epi-1 biobrick)
• Bacteria culture (TA clone with Epi-1, pQE60 with Epi-1, pQE60 with signiferin and signiferin biobrick)

Aug. 31th ,2015

•  gel extraction of (Epi-1 biobrick andpQE60 insert)
•  Ligate Epi-1 into pQE60 and backbone
•  PCR to check clone (signiferin biobrick, pQE60 with signiferin and pQE60 with Epi-1)
•  Transform plasmid of Epi-1 biobrick and pQE60 with Epi-1 into DH5α





             
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