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<div class="col-xs-8 content"> | <div class="col-xs-8 content"> | ||
− | <p class="m-b-xs"><strong>Making the agarose gel </strong> | + | <p class="m-b-xs"><strong>Making the agarose gel</strong> |
</p> | </p> | ||
<p>1.Experiment reagent : agarose, TAE solution, SYBY GREEN <br> | <p>1.Experiment reagent : agarose, TAE solution, SYBY GREEN <br> | ||
2.Experiment apparatus:microwave oven, analytical balance, graduated cylinder100ml, conical flask500ml, plastic glove,the equipment for making gel(including the combs), electrophoresis tank<br> | 2.Experiment apparatus:microwave oven, analytical balance, graduated cylinder100ml, conical flask500ml, plastic glove,the equipment for making gel(including the combs), electrophoresis tank<br> | ||
3.Experiment steps:<br> | 3.Experiment steps:<br> | ||
− | (1)add agarose 0.8g, TAE solution 100μl into the conical flask <br> | + | (1)add agarose 0.8g, TAE solution 100μl into the conical flask <br> |
− | (2)put a plastic glove on the conical flask (prevent it from evaporating)<br> | + | (2)put a plastic glove on the conical flask (prevent it from evaporating)<br> |
− | (3)put the conical flask into the microwave oven to heat up for 2min<br> | + | (3)put the conical flask into the microwave oven to heat up for 2min<br> |
− | (4)take the conical flask out, after it is cooled down, add nucleic acid dye SYBY GREEN 120μl into it , and then shake it until it is mixed uniform<br> | + | (4)take the conical flask out, after it is cooled down, add nucleic acid dye SYBY GREEN 120μl into it , and then shake it until it is mixed uniform<br> |
− | (5)pour the solution into Agarose gel plate, until it is 4~6mm thick<br> | + | (5)pour the solution into Agarose gel plate, until it is 4~6mm thick<br> |
− | (6)put an suitable comb in the plate, and then cool the gel down in indoor temperature<br> | + | (6)put an suitable comb in the plate, and then cool the gel down in indoor temperature<br> |
− | (7)after it is solidified completely, pull out the comb vertically to make sure the sample hole is all right<br> | + | (7)after it is solidified completely, pull out the comb vertically to make sure the sample hole is all right<br> |
− | (8)put the gel into the electrophoresis tank, add TBE until it is over the gel 1~2mm | + | (8)put the gel into the electrophoresis tank, add TBE until it is over the gel 1~2mm |
</p> | </p> | ||
</div> | </div> | ||
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</div> | </div> | ||
<div class="col-xs-8 content"> | <div class="col-xs-8 content"> | ||
− | <p class="m-b-xs"><strong>PCR&AGE</strong> | + | <p class="m-b-xs"><strong>PCR&AGE </strong></p> |
− | + | ||
<p> | <p> | ||
1.Experiment material:genome DNA of arabidopsis , primer(flu、cop1、plf1、phyB、pHhl1、hhl1)<br> | 1.Experiment material:genome DNA of arabidopsis , primer(flu、cop1、plf1、phyB、pHhl1、hhl1)<br> | ||
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3.Experiment apparatus:DNA thermal cycler, elctrophoresis apparatus,elctrophoresis tank,ultraviolet <br>detector, table centrifuge, 0.5ml &1.5ml centrifuge tube, micropipet | 3.Experiment apparatus:DNA thermal cycler, elctrophoresis apparatus,elctrophoresis tank,ultraviolet <br>detector, table centrifuge, 0.5ml &1.5ml centrifuge tube, micropipet | ||
4.experiment steps:<br> | 4.experiment steps:<br> | ||
− | (1)disposal the reaction system<br> | + | (1)disposal the reaction system<br> |
− | 2μl buffer(including 15mM MgCl2)<br> | + | 2μl buffer(including 15mM MgCl2)<br> |
− | 1μl dNTPs <br> | + | 1μl dNTPs <br> |
− | 1.5μl DNA<br> | + | 1.5μl DNA<br> |
− | 1.0μl forward primer <br> | + | 1.0μl forward primer <br> |
− | 1.0μl reverse primer<br> | + | 1.0μl reverse primer<br> |
− | 0.2μl Taq enzyme<br> | + | 0.2μl Taq enzyme<br> |
− | 13μl ddH2O<br> | + | 13μl ddH2O<br> |
− | (primer:flu,cop1,plf1,phyB,pHhl1,hhl1)<br> | + | (primer:flu,cop1,plf1,phyB,pHhl1,hhl1)<br> |
− | (2)Set the PCR<br> | + | (2)Set the PCR<br> |
− | 94℃×5min + (94℃×30s +62℃×35s + 72℃×40s)×40+ 72℃×5min + 4℃<br> | + | 94℃×5min + (94℃×30s +62℃×35s + 72℃×40s)×40+ 72℃×5min + 4℃<br> |
− | (3)PCR product detection & AGE<br> | + | (3)PCR product detection & AGE<br> |
− | ①making the agarose gel(see 2016.07.25 Morning)<br> | + | ①making the agarose gel(see 2016.07.25 Morning)<br> |
− | ②sample application:use micropipet to add 2μl DNA sample from experiment 1 to point template, and then add 1 μl buffer, mix ,then add it into the sample hole. Add 10 μl marker into one side the sample hole.<br> | + | ②sample application:use micropipet to add 2μl DNA sample from experiment 1 to point template, and then add 1 μl buffer, mix ,then add it into the sample hole. Add 10 μl marker into one side the sample hole.<br> |
− | ③electrophoresis:turn on the power,adjust the voltage. It can be observe after 30min.<br> | + | ③electrophoresis:turn on the power,adjust the voltage. It can be observe after 30min.<br> |
− | ④observation:put the gel on the ultraviolet detector, turn on the UV light, white nucleic acid strip can be seen. Based on the thickness and flosorescence intensity as well as the marker, we can estimate the concentration and molecular weight of DNA.<br> | + | ④observation:put the gel on the ultraviolet detector, turn on the UV light, white nucleic acid strip can be seen. Based on the thickness and flosorescence intensity as well as the marker, we can estimate the concentration and molecular weight of DNA.<br> |
5.result:the strip is very dull, and there are many spots around the picture<br> | 5.result:the strip is very dull, and there are many spots around the picture<br> | ||
6.analyze:<br> | 6.analyze:<br> | ||
− | (1) We didn’t add add the reagent accurately, which led to not finishing the PCR that makes a low DNA concentration<br> | + | (1) We didn’t add add the reagent accurately, which led to not finishing the PCR that makes a low DNA concentration<br> |
− | (2) The dye wasn’t mixed with DNA completely, which makes the strip very dull<br> | + | (2) The dye wasn’t mixed with DNA completely, which makes the strip very dull<br> |
− | (3)The DNA extracted from the plants wasn’t pure, cause the appear of impurities<br> | + | (3)The DNA extracted from the plants wasn’t pure, cause the appear of impurities<br> |
− | (4)For the gel was prepared a day ago, it may be polluted during the long time, which brought some impurities | + | (4)For the gel was prepared a day ago, it may be polluted during the long time, which brought some impurities |
− | + | ||
</p> | </p> | ||
</div> | </div> | ||
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</div> | </div> | ||
<div class="col-xs-8 content"> | <div class="col-xs-8 content"> | ||
− | <p class="m-b-xs"><strong>the second time for PCR&AGE</strong> | + | <p class="m-b-xs"><strong>the second time for PCR&AGE </strong> |
</p> | </p> | ||
<p> | <p> | ||
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2.experiment reagent :primers was decreased to two types(plf1 and hhl)<br> | 2.experiment reagent :primers was decreased to two types(plf1 and hhl)<br> | ||
3.experiment steps:<br> | 3.experiment steps:<br> | ||
− | (1)PCR:the same as the first time (2016.07.26)<br> | + | (1)PCR:the same as the first time (2016.07.26)<br> |
− | (2)sample application:use micropipet to add 2μl DNA sample from experiment 1 to point template, and then add 1 μl buffer, 0.5μl SYBY GREEN,mix ,wait for 10min,and then add it into the sample hole. Add 10 μl markertot o point template, 0.5μl SYBY GREEN,mix, wait for 5min, then add it into one side the sample hole.<br> | + | (2)sample application:use micropipet to add 2μl DNA sample from experiment 1 to point template, and then add 1 μl buffer, 0.5μl SYBY GREEN,mix ,wait for 10min,and then add it into the sample hole. Add 10 μl markertot o point template, 0.5μl SYBY GREEN,mix, wait for 5min, then add it into one side the sample hole.<br> |
− | (3),(4)is the same as the steps in the first time<br> | + | (3),(4)is the same as the steps in the first time<br> |
4.result:the brightness of strips are usual, but many strips’ length are less than 1000bp<br> | 4.result:the brightness of strips are usual, but many strips’ length are less than 1000bp<br> | ||
5.analyze:<br> | 5.analyze:<br> | ||
− | (1)The primers may not be enough, they couldn’t combine with DNA perfectly, which led to the residue of primer,and didn’t get the target gene.<br> | + | (1)The primers may not be enough, they couldn’t combine with DNA perfectly, which led to the residue of primer,and didn’t get the target gene.<br> |
− | (2)When extracting DNA, some parts of the DNA may be enzymolysised by some DNA helicase, so the DNA can’t combine with the primers.<br> | + | (2)When extracting DNA, some parts of the DNA may be enzymolysised by some DNA helicase, so the DNA can’t combine with the primers.<br> |
</p> | </p> | ||
</div> | </div> | ||
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</div> | </div> | ||
<div class="col-xs-8 content"> | <div class="col-xs-8 content"> | ||
− | <p class="m-b-xs"><strong>the third time for PCR&AGE</strong> | + | <p class="m-b-xs"><strong>the third time for PCR&AGE </strong> |
</p> | </p> | ||
<p> | <p> | ||
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2.experiment reagent :primers was decreased to two types(plf1 and hhl)<br> | 2.experiment reagent :primers was decreased to two types(plf1 and hhl)<br> | ||
3.experiment steps:<br> | 3.experiment steps:<br> | ||
− | (1)PCR: the react sysytem is the same as the first time (2016.07.26), but the react settings was changed into:94℃×5min + (94℃×30s +60℃×30s + 72℃×2min)×30+ 72℃×10min + 4℃<br> | + | (1)PCR: the react sysytem is the same as the first time (2016.07.26), but the react settings was changed into:94℃×5min + (94℃×30s +60℃×30s + 72℃×2min)×30+ 72℃×10min + 4℃<br> |
− | (2)AGE: the same as the second time<br> | + | (2)AGE: the same as the second time<br> |
4.result: the brightness and length of strips are very usual,but there are some obvious entrainments<br> | 4.result: the brightness and length of strips are very usual,but there are some obvious entrainments<br> | ||
5.Analyze:<br> | 5.Analyze:<br> | ||
− | (1)PCR might occur non-specificity amplification, which produced many small fragments<br> | + | (1)PCR might occur non-specificity amplification, which produced many small fragments<br> |
− | (2)The voltage of AGE might be too high, which damaged the aperture of agarose gel<br> | + | (2)The voltage of AGE might be too high, which damaged the aperture of agarose gel<br> |
− | (3)We might add too much primers<br> | + | (3)We might add too much primers<br> |
− | (4)We might didn’t add the dNTPs correctly, which led to the increasing of mispairing rate<br> | + | (4)We might didn’t add the dNTPs correctly, which led to the increasing of mispairing rate<br> |
</p> | </p> | ||
</div> | </div> | ||
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</div> | </div> | ||
</div> | </div> | ||
− | + | </div> | |
</div> | </div> | ||
</div> | </div> |
Revision as of 08:57, 23 September 2016
<!DOCTYPE html>
Morning
Making the agarose gel
1.Experiment reagent : agarose, TAE solution, SYBY GREEN
2.Experiment apparatus:microwave oven, analytical balance, graduated cylinder100ml, conical flask500ml, plastic glove,the equipment for making gel(including the combs), electrophoresis tank
3.Experiment steps:
(1)add agarose 0.8g, TAE solution 100μl into the conical flask
(2)put a plastic glove on the conical flask (prevent it from evaporating)
(3)put the conical flask into the microwave oven to heat up for 2min
(4)take the conical flask out, after it is cooled down, add nucleic acid dye SYBY GREEN 120μl into it , and then shake it until it is mixed uniform
(5)pour the solution into Agarose gel plate, until it is 4~6mm thick
(6)put an suitable comb in the plate, and then cool the gel down in indoor temperature
(7)after it is solidified completely, pull out the comb vertically to make sure the sample hole is all right
(8)put the gel into the electrophoresis tank, add TBE until it is over the gel 1~2mm
The whole day
PCR&AGE
1.Experiment material:genome DNA of arabidopsis , primer(flu、cop1、plf1、phyB、pHhl1、hhl1)
2.Experiment reagent:ddH2O, dNTP,Taq enzyme,Mg2+,10×Buffer
3.Experiment apparatus:DNA thermal cycler, elctrophoresis apparatus,elctrophoresis tank,ultraviolet
detector, table centrifuge, 0.5ml &1.5ml centrifuge tube, micropipet
4.experiment steps:
(1)disposal the reaction system
2μl buffer(including 15mM MgCl2)
1μl dNTPs
1.5μl DNA
1.0μl forward primer
1.0μl reverse primer
0.2μl Taq enzyme
13μl ddH2O
(primer:flu,cop1,plf1,phyB,pHhl1,hhl1)
(2)Set the PCR
94℃×5min + (94℃×30s +62℃×35s + 72℃×40s)×40+ 72℃×5min + 4℃
(3)PCR product detection & AGE
①making the agarose gel(see 2016.07.25 Morning)
②sample application:use micropipet to add 2μl DNA sample from experiment 1 to point template, and then add 1 μl buffer, mix ,then add it into the sample hole. Add 10 μl marker into one side the sample hole.
③electrophoresis:turn on the power,adjust the voltage. It can be observe after 30min.
④observation:put the gel on the ultraviolet detector, turn on the UV light, white nucleic acid strip can be seen. Based on the thickness and flosorescence intensity as well as the marker, we can estimate the concentration and molecular weight of DNA.
5.result:the strip is very dull, and there are many spots around the picture
6.analyze:
(1) We didn’t add add the reagent accurately, which led to not finishing the PCR that makes a low DNA concentration
(2) The dye wasn’t mixed with DNA completely, which makes the strip very dull
(3)The DNA extracted from the plants wasn’t pure, cause the appear of impurities
(4)For the gel was prepared a day ago, it may be polluted during the long time, which brought some impurities
Afternoon
the second time for PCR&AGE
1.experiment material and experiment apparatus is the as the first time(2016.07.26)
2.experiment reagent :primers was decreased to two types(plf1 and hhl)
3.experiment steps:
(1)PCR:the same as the first time (2016.07.26)
(2)sample application:use micropipet to add 2μl DNA sample from experiment 1 to point template, and then add 1 μl buffer, 0.5μl SYBY GREEN,mix ,wait for 10min,and then add it into the sample hole. Add 10 μl markertot o point template, 0.5μl SYBY GREEN,mix, wait for 5min, then add it into one side the sample hole.
(3),(4)is the same as the steps in the first time
4.result:the brightness of strips are usual, but many strips’ length are less than 1000bp
5.analyze:
(1)The primers may not be enough, they couldn’t combine with DNA perfectly, which led to the residue of primer,and didn’t get the target gene.
(2)When extracting DNA, some parts of the DNA may be enzymolysised by some DNA helicase, so the DNA can’t combine with the primers.
Afternoon
the third time for PCR&AGE
1.experiment material and experiment apparatus is the as the first time(2016.07.26)
2.experiment reagent :primers was decreased to two types(plf1 and hhl)
3.experiment steps:
(1)PCR: the react sysytem is the same as the first time (2016.07.26), but the react settings was changed into:94℃×5min + (94℃×30s +60℃×30s + 72℃×2min)×30+ 72℃×10min + 4℃
(2)AGE: the same as the second time
4.result: the brightness and length of strips are very usual,but there are some obvious entrainments
5.Analyze:
(1)PCR might occur non-specificity amplification, which produced many small fragments
(2)The voltage of AGE might be too high, which damaged the aperture of agarose gel
(3)We might add too much primers
(4)We might didn’t add the dNTPs correctly, which led to the increasing of mispairing rate