Difference between revisions of "Team:UMBC-Maryland/Notebook"

 
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<h1> <u><font size="6"color="000000">Notebook</font></u> </h1>
 
<h1> <u><font size="6"color="000000">Notebook</font></u> </h1>
 
<br> <u><font size="3"color="000000">Week 1</font></u>
 
<br> <u><font size="3"color="000000">Week 1</font></u>
 
<br> <b><font size="2"color="000000">June 1st</font></b>
 
<br> <b><font size="2"color="000000">June 1st</font></b>
<br> First meeting of the project over summer where we ran our PCR products on a 1% agarose gel with results shown in 6_1_15PCR.jpg. Band sizes are determined from the ladder in N0467_thumb.gif.
 
 
<br>
 
<br>
 +
<p>First meeting of the project over summer where we ran our PCR products on a 1% agarose gel for practice. </p>
 
<br> <b><font size="2"color="000000">June 4th</font></b>
 
<br> <b><font size="2"color="000000">June 4th</font></b>
<br> iGEM team members attended a meeting with a professor and was given an overview to the procedure of 3A Assembly. We also discussed team structure and the CUP1 gene construct that is needed to be synthesized as a G-block. G-blocks are then submitted to IDT for sequencing.
+
<br> iGEM team members attended a meeting with a professor and was given an overview to the procedure of 3A Assembly. We also discussed team structure and the CUP1 gene construct that is needed to be synthesized as a G-block. G-blocks are then submitted to IDT for synthesis.
 
<br>
 
<br>
 
<br> <u><font size="3"color="000000">Week 2</font></u>
 
<br> <u><font size="3"color="000000">Week 2</font></u>
<br>
+
<br> <b><font size="2"color="000000">June 8th</font></b>
<br> <b>June 8th</b>
+
 
<br> Digest products with a combination of restriction enzymes (XbaI, HindIII, EcoRI)were ran on a 2% agarose gel. Both gel results came up inconclusive.
 
<br> Digest products with a combination of restriction enzymes (XbaI, HindIII, EcoRI)were ran on a 2% agarose gel. Both gel results came up inconclusive.
 
<br>
 
<br>
 
<br> <u><font size="3"color="000000">Week 3</font></u>
 
<br> <u><font size="3"color="000000">Week 3</font></u>
<br>
+
<br> <b><font size="2"color="000000">June 15th</font></b>
<br> [[June 15th]]
+
 
<br> Repeated digestion to troubleshoot any possible errors that may have occurred during the protocol.  
 
<br> Repeated digestion to troubleshoot any possible errors that may have occurred during the protocol.  
 
<br>  
 
<br>  
 
<br> <u><font size="3"color="000000">Week 4</font></u>
 
<br> <u><font size="3"color="000000">Week 4</font></u>
<br>
+
<br> <b><font size="2"color="000000">June 22nd</font></b>
<br> [[June 22nd]]
+
 
<br> Repeated analysis of the digestion products on the gel. Gel results showed no bands
 
<br> Repeated analysis of the digestion products on the gel. Gel results showed no bands
 
<br>
 
<br>
<br> [[June 25th]]
+
<br> <b><font size="2"color="000000">June 25th</font></b>
 
<br> Mini-prep of the metallothionein plasmid.  
 
<br> Mini-prep of the metallothionein plasmid.  
 
<br>  
 
<br>  
 
<br> <u><font size="3"color="000000">Week 5</font></u>
 
<br> <u><font size="3"color="000000">Week 5</font></u>
<br>
+
<br> <b><font size="2"color="000000">June 29th</font></b>
<br> [[June 29th]]
+
 
<br> Digestion of the metallothionein plasmid with restriction enzymes (EcoRI & PstI). After further investigation, the Bulls-Eye solution was the cause of bands not appearing and we switched to Ethidium Bromide. The digestion products were then run on a gel stained with ethidium bromide. The gel depicted both digested and undigested bands that can be used to identify whether our restriction enzymes are working or not.  
 
<br> Digestion of the metallothionein plasmid with restriction enzymes (EcoRI & PstI). After further investigation, the Bulls-Eye solution was the cause of bands not appearing and we switched to Ethidium Bromide. The digestion products were then run on a gel stained with ethidium bromide. The gel depicted both digested and undigested bands that can be used to identify whether our restriction enzymes are working or not.  
 
<br>  
 
<br>  
 +
</html>
 +
[[File:6 29 15 Miniprep.jpg|300px]]
 +
<html>
 
<br> <u><font size="3"color="000000">Week 6</font></u>
 
<br> <u><font size="3"color="000000">Week 6</font></u>
<br>  
+
<br> <b><font size="2"color="000000">July 7th</font></b>
<br> [[July 7th]]
+
 
<br> Today marks the first day we began production of our first cell line, Retriever 1(Ret1).The CUP1 transformed cells and control cells were plated and an overnight was done.  
 
<br> Today marks the first day we began production of our first cell line, Retriever 1(Ret1).The CUP1 transformed cells and control cells were plated and an overnight was done.  
 
<br>
 
<br>
<br> [[July 9th]]
+
<br> <b><font size="2"color="000000">July 8th</font></b>
<br> Inoculation experiment. Six flasks of 25 mL LB broth were prepared, 3 of which will be the control and the other will be for the transformed. From Copper Sulfate, a stock solution of 0.5M Copper Solution was created and then a 0.1M Solution was created to be used. Enough volume of the 0.1M Copper Solution was added to the 6 six flasks so each of the control and transformed group will have flasks containing a concentration of [0uM], [15uM] and [25uM]. To the transformed group 9.375uL of Chloramphenicol was added. At every hour for eight hours, starting at the 0th hour, an optical density reading will be taken for each flask. Drawing out 1mL of the solution from each flask into eppendorfs, followed by measuring the optical density. Since the Laemmli Buffer was nowhere to be found,the solution was spun down to be put in the freezer for the SDS gel in the future. Another 1 mL from each flask is saved for copper measurement. Data of the time points is depicted as a table and graph.  
+
<br> A gel was run on the transformed cells and control cells using Bullseye (left) and EtBr (right) to stain the DNA. We concluded that we would be using EtBr thereafter.
 
<br>
 
<br>
<br> <u><font size="3"color="000000">Week 7</font></u>
+
</html>
 +
[[File:7-08-Bullseye.jpg|300px]]
 +
[[File:7-08-EtBr.jpg|300px]]
 +
<html>
 
<br>
 
<br>
<br> [[July 15th]]
+
<br> <b><font size="2"color="000000">July 9th</font></b>
 +
<br> Inoculation experiment. Six flasks of 25 mL LB broth were prepared, 3 of which will be the control and the other will be for the transformed. From Copper Sulfate, a stock solution of 0.5M Copper Solution was created and then a 0.1M Solution was created to be used. Enough volume of the 0.1M Copper Solution was added to the 6 six flasks so each of the control and transformed group will have flasks containing a concentration of [0uM], [15uM] and [25uM]. To the transformed group 9.375uL of Chloramphenicol was added. At every hour for eight hours, starting at the 0th hour, an optical density reading will be taken for each flask. Drawing out 1mL of the solution from each flask into eppendorfs, followed by measuring the optical density. Since the Laemmli Buffer was nowhere to be found,the solution was spun down to be put in the freezer for the SDS gel in the future. Another 1 mL from each flask is saved for copper measurement. Data of time points is displayed below.
 +
<br>
 +
</html>
 +
[[File:7 9 15 InoculationExperiment.jpg]]
 +
<html>
 +
<br>
 +
<br> <u><font size="3"color="000000">Week 7</font></u>
 +
<br> <b><font size="2"color="000000">July 15th</font></b>
 
<br> Meeting with our advisor regarding current updates on the project and the availability of the flame atomic absorption spectrometer to be used for the copper measurement. An overnight for the Ret1 transformed cells was done today to repeat the experiment at higher concentrations of copper.  
 
<br> Meeting with our advisor regarding current updates on the project and the availability of the flame atomic absorption spectrometer to be used for the copper measurement. An overnight for the Ret1 transformed cells was done today to repeat the experiment at higher concentrations of copper.  
 
<br>
 
<br>
<br> [[July 16th]]
+
<br> <b><font size="2"color="000000">July 16th</font></b>
 
<br> Another inoculation experiment was scheduled for today, however the tube of the overnight cells broke so instead a repeat of the overnight was done.  
 
<br> Another inoculation experiment was scheduled for today, however the tube of the overnight cells broke so instead a repeat of the overnight was done.  
 
<br>  
 
<br>  
<br> [[July 17th]]
+
<br> <b><font size="2"color="000000">July 17th</font></b>
 
<br> The second inoculation experiment. A copper concentration of [0uM], [50uM], [75uM] and [100uM] was experimented with. Data was collected in the same manner except with a 30 minute time point after the one hour mark. After the optical density was read for the solution, the solutions were centrifuged and the supernatant in the eppendorfs were removed to be used for copper measurement. The pellet in the eppendorfs were then resuspended with 200uL of master mix of Laemmli Buffer and were placed in the freezer to be used to run an SDS-gel in the future.  
 
<br> The second inoculation experiment. A copper concentration of [0uM], [50uM], [75uM] and [100uM] was experimented with. Data was collected in the same manner except with a 30 minute time point after the one hour mark. After the optical density was read for the solution, the solutions were centrifuged and the supernatant in the eppendorfs were removed to be used for copper measurement. The pellet in the eppendorfs were then resuspended with 200uL of master mix of Laemmli Buffer and were placed in the freezer to be used to run an SDS-gel in the future.  
<p> Document the dates you worked on your project.</p>
+
<br>
 
+
</html>
<h5>What should this page have?</h5>
+
[[File:7 17 15 InoculationExperiment.jpg|600px]]
<ul>
+
<html>
<li>Chronological notes of what your team is doing.</li>
+
<br>
<li> Brief descriptions of daily important events.</li>
+
<br> <u><font size="3"color="000000">Week 8</font></u>
<li>Pictures of your progress. </li>
+
<br> <b><font size="2"color="000000">July 21st</font></b>
<li>Mention who participated in what task.</li>
+
<br>  From the second inoculation experiment, the eppendorfs were thawed on ice in preparation for the 10% SDS-gel. 7 uL of the Sigma Aldrich Wide Range Ladder (6-205 kDA) was added to the first lane while the other 10 lanes each contained 10 uL of samples from the experiment. Samples at timepoints 1.5, 3, 7, were selected at different concentrations. The gel was ran at 125V for 40 minutes and then stained with Blue Staining Solution. The gel was decanted for an hour with repeated rinses every 15 minutes. gel results are discussed on a later date.
</ul>
+
<br>
 
+
</html>
 
+
[[File:7 21 15 SDS GelLabeled.jpg|500px]]
<h4>Inspiration</h4>
+
<html>
<p>You can see what others teams have done to organize their notes:</p>
+
<br>
 
+
<br> <u><font size="3"color="000000">Week 9</font></u>
<ul>  
+
<br> <b><font size="2"color="000000">July 27th</font></b>
<li><a href="https://2014.igem.org/Team:ATOMS-Turkiye/Notebook">2014 ATOMS-Turkiye</a></li>
+
<br> Discussion of the gel results and future plans on how copper measurement will be done. We planned to use flame atomic absorption spectroscopy, however our copper concentrations were too small. The second method uses a plate reader to measure the florescence of the sample. 
<li><a href="https://2014.igem.org/Team:Tec-Monterrey/ITESM14_project.html#tab_notebook">2014 Tec Monterrey</a></li>
+
<br>
<li><a href="https://2014.igem.org/Team:Kyoto/Notebook/Magnetosome_Formation#title">2014 Kyoto</a></li>
+
<br> <u><font size="3"color="000000">Week 10</font></u>
<li><a href="https://2014.igem.org/Team:Cornell/notebook">2014 Cornell</a></li>
+
<br> <b><font size="2"color="000000">July 31st</font></b>
</ul>
+
<br> Made BCSsolution for detection of copper solution
 
+
composition of single sample
</div>
+
4ul of copper sample
 +
10ul of 10 uM reducing agent (sodium citrate)
 +
10 ul of 4uM BCS
 +
76 ul of PBS
 +
<br>
 +
<br> <b><font size="2"color="000000">August 3rd</font></b>
 +
<br> The flame atomic absorption spectroscopy was not available for use since the instructor was on vacation so we used the plate reader. The plate reader could not measure the florescence because there were no appropriate filters in the lab to emit higher than 700nm. Instead, we looked toward other options for copper measurement.
 +
<br>
 +
<br> <b><font size="2"color="000000">August 6th</font></b>
 +
<br> The third growth experiment was scheduled today. We worked with concentrations of 0 mM, 0.5 mM, 1 mM, and 4mM. We noticed that we had to create different blanks due to the different copper concentrations that we did not do for the previous experiments. Samples were then stored for SDS-gels again.
 +
    The second iGEM part, CUP1 codon optimized came in the day prior. Hi-Fi assembly was performed followed by transformation. The control was spread on plates with ampicilin resistance and the transformed group was spread on plates with chloramphenicol resistance. Each group contained plates consisting of 25 uM, 50 uM, and 100 uM. The plates were incubated and grown overnight.
 +
<br>
 +
</html>
 +
[[File:8 6 15 InoculationExperimentOD.jpg|700px]]
 +
<html>
 +
<br>
 +
<br> <u><font size="3"color="000000">Week 11</font></u>
 +
<br> <b><font size="2"color="000000">August 11th</font></b>
 +
<br> The control plate had only a few colonies growing on it, even after a second attempt while the transformed had multiple colonies. We currently do not have an explanation for why there are less colonies on the control plate, however we decided to do a miniprep of the CUP1 codon optimized gene in order to do the restriction digest and gel the next experiment day.
 +
Copper measurements were taken through the use of a different plate reader. The absorbance of copper was taken at all the time points and a graph was created depicting the data.
 +
<br>
 +
</html>
 +
[[File:8 6 15 InoculationExperimentCu.jpg|500px]]
 +
<html>
 +
<br>
 +
<br> <b><font size="2"color="000000">August 13th</font></b>
 +
<br>  The DNA was digested with PstI and EcoRI and then ran on a 1% agarose gel.
 +
<br>
 +
</html>
 +
[[File:Miniprep 8 13 15d.JPG|300px]]
 +
<html>
 +
<br>
 +
<br> <u><font size="3"color="000000">Week 12</font></u>
 +
<br> <b><font size="2"color="000000">August 17th</font></b>
 +
<br>  Due to an error in labeling the plate and miniprep tubes, we decided to redo the gel. Based on the lanes with the least amount of noise (colonies 7 and 8), we transformed our competent cells using the DNA corresponding to those colonies. An overnight will be done tomorrow for the experiment on the following day.
 +
<br>
 +
</html>
 +
[[File:8 13 15Gel.jpg|400px]]
 +
<html>
 +
<br>
 +
<br> <b><font size="2"color="000000">August 19th</font></b>
 +
<br>  We ran an inoculation experiment using the cells with the CUP1 codon-optimized gene. After realizing that the copper solution was interfering with our OD data, we decided to resuspend the cells in LB and use LB as our blank to gather the OD data.
 +
<br>
 +
</html>
 +
[[File:8 19 15 InoculationExperimentOD.jpg|600px]]
 +
<html>
 +
<br>
 +
<br> <b><font size="2"color="000000">August 20th</font></b>
 +
<br> We ran an SDS-PAGE gel using the samples collected from the experiment we did on August 19th. Since these were new gels, we made a few errors which resulted in unreadable results.
 +
<br>
 +
<br> <b><font size="2"color="000000">August 21th</font></b>
 +
<br>  We attempted the most recent SDS-PAGE gel again, with successful results. This gel showed a band in the Ret2 samples at a size of around 32 kDa, while our Metallothionein protein was expected to be around 6.5 kDa. We are pondering the implications of this data. We also ran two more gels with the experiment for Ret1 data.
 +
<br>
 +
</html>
 +
[[File:8 22 15 SDSGel.jpg|400px]]
 +
<html>
 +
<br>
 +
<br> <b><font size="2"color="000000">August 25th</font></b>
 +
<br> We ran an SDS-Gel on Ret1, which came out inconclusive.
 +
<br>
 +
<br> <b><font size="2"color="000000">September 13th</font></b>
 +
<br> The LamB-Metallothionein fusion came, we assembled and transformed. Then, we ran our last inoculation experiment over a 10 hour time period.
 +
<br>
 +
</html>
 +
[[File:UMBCRet3OD.jpg|700px]]
 +
<html>
 +
<br>
 +
<br>
 +
</html>
 +
[[File:UMBCRet3Cu.jpg|500px]]
 +
<html>
 +
<br>
 +
<br>
 +
<br>
 +
<br>
 +
<br>
 +
<br>
 
</html>
 
</html>
 +
{{Team:UMBC-Maryland/TemplateBottom}}

Latest revision as of 02:23, 19 September 2015

Notebook


Week 1
June 1st

First meeting of the project over summer where we ran our PCR products on a 1% agarose gel for practice.


June 4th
iGEM team members attended a meeting with a professor and was given an overview to the procedure of 3A Assembly. We also discussed team structure and the CUP1 gene construct that is needed to be synthesized as a G-block. G-blocks are then submitted to IDT for synthesis.

Week 2
June 8th
Digest products with a combination of restriction enzymes (XbaI, HindIII, EcoRI)were ran on a 2% agarose gel. Both gel results came up inconclusive.

Week 3
June 15th
Repeated digestion to troubleshoot any possible errors that may have occurred during the protocol.

Week 4
June 22nd
Repeated analysis of the digestion products on the gel. Gel results showed no bands

June 25th
Mini-prep of the metallothionein plasmid.

Week 5
June 29th
Digestion of the metallothionein plasmid with restriction enzymes (EcoRI & PstI). After further investigation, the Bulls-Eye solution was the cause of bands not appearing and we switched to Ethidium Bromide. The digestion products were then run on a gel stained with ethidium bromide. The gel depicted both digested and undigested bands that can be used to identify whether our restriction enzymes are working or not.
6 29 15 Miniprep.jpg
Week 6
July 7th
Today marks the first day we began production of our first cell line, Retriever 1(Ret1).The CUP1 transformed cells and control cells were plated and an overnight was done.

July 8th
A gel was run on the transformed cells and control cells using Bullseye (left) and EtBr (right) to stain the DNA. We concluded that we would be using EtBr thereafter.
7-08-Bullseye.jpg 7-08-EtBr.jpg

July 9th
Inoculation experiment. Six flasks of 25 mL LB broth were prepared, 3 of which will be the control and the other will be for the transformed. From Copper Sulfate, a stock solution of 0.5M Copper Solution was created and then a 0.1M Solution was created to be used. Enough volume of the 0.1M Copper Solution was added to the 6 six flasks so each of the control and transformed group will have flasks containing a concentration of [0uM], [15uM] and [25uM]. To the transformed group 9.375uL of Chloramphenicol was added. At every hour for eight hours, starting at the 0th hour, an optical density reading will be taken for each flask. Drawing out 1mL of the solution from each flask into eppendorfs, followed by measuring the optical density. Since the Laemmli Buffer was nowhere to be found,the solution was spun down to be put in the freezer for the SDS gel in the future. Another 1 mL from each flask is saved for copper measurement. Data of time points is displayed below.
7 9 15 InoculationExperiment.jpg

Week 7
July 15th
Meeting with our advisor regarding current updates on the project and the availability of the flame atomic absorption spectrometer to be used for the copper measurement. An overnight for the Ret1 transformed cells was done today to repeat the experiment at higher concentrations of copper.

July 16th
Another inoculation experiment was scheduled for today, however the tube of the overnight cells broke so instead a repeat of the overnight was done.

July 17th
The second inoculation experiment. A copper concentration of [0uM], [50uM], [75uM] and [100uM] was experimented with. Data was collected in the same manner except with a 30 minute time point after the one hour mark. After the optical density was read for the solution, the solutions were centrifuged and the supernatant in the eppendorfs were removed to be used for copper measurement. The pellet in the eppendorfs were then resuspended with 200uL of master mix of Laemmli Buffer and were placed in the freezer to be used to run an SDS-gel in the future.
7 17 15 InoculationExperiment.jpg

Week 8
July 21st
From the second inoculation experiment, the eppendorfs were thawed on ice in preparation for the 10% SDS-gel. 7 uL of the Sigma Aldrich Wide Range Ladder (6-205 kDA) was added to the first lane while the other 10 lanes each contained 10 uL of samples from the experiment. Samples at timepoints 1.5, 3, 7, were selected at different concentrations. The gel was ran at 125V for 40 minutes and then stained with Blue Staining Solution. The gel was decanted for an hour with repeated rinses every 15 minutes. gel results are discussed on a later date.
7 21 15 SDS GelLabeled.jpg

Week 9
July 27th
Discussion of the gel results and future plans on how copper measurement will be done. We planned to use flame atomic absorption spectroscopy, however our copper concentrations were too small. The second method uses a plate reader to measure the florescence of the sample.

Week 10
July 31st
Made BCSsolution for detection of copper solution composition of single sample 4ul of copper sample 10ul of 10 uM reducing agent (sodium citrate) 10 ul of 4uM BCS 76 ul of PBS

August 3rd
The flame atomic absorption spectroscopy was not available for use since the instructor was on vacation so we used the plate reader. The plate reader could not measure the florescence because there were no appropriate filters in the lab to emit higher than 700nm. Instead, we looked toward other options for copper measurement.

August 6th
The third growth experiment was scheduled today. We worked with concentrations of 0 mM, 0.5 mM, 1 mM, and 4mM. We noticed that we had to create different blanks due to the different copper concentrations that we did not do for the previous experiments. Samples were then stored for SDS-gels again. The second iGEM part, CUP1 codon optimized came in the day prior. Hi-Fi assembly was performed followed by transformation. The control was spread on plates with ampicilin resistance and the transformed group was spread on plates with chloramphenicol resistance. Each group contained plates consisting of 25 uM, 50 uM, and 100 uM. The plates were incubated and grown overnight.
8 6 15 InoculationExperimentOD.jpg

Week 11
August 11th
The control plate had only a few colonies growing on it, even after a second attempt while the transformed had multiple colonies. We currently do not have an explanation for why there are less colonies on the control plate, however we decided to do a miniprep of the CUP1 codon optimized gene in order to do the restriction digest and gel the next experiment day. Copper measurements were taken through the use of a different plate reader. The absorbance of copper was taken at all the time points and a graph was created depicting the data.
8 6 15 InoculationExperimentCu.jpg

August 13th
The DNA was digested with PstI and EcoRI and then ran on a 1% agarose gel.
Miniprep 8 13 15d.JPG

Week 12
August 17th
Due to an error in labeling the plate and miniprep tubes, we decided to redo the gel. Based on the lanes with the least amount of noise (colonies 7 and 8), we transformed our competent cells using the DNA corresponding to those colonies. An overnight will be done tomorrow for the experiment on the following day.
8 13 15Gel.jpg

August 19th
We ran an inoculation experiment using the cells with the CUP1 codon-optimized gene. After realizing that the copper solution was interfering with our OD data, we decided to resuspend the cells in LB and use LB as our blank to gather the OD data.
8 19 15 InoculationExperimentOD.jpg

August 20th
We ran an SDS-PAGE gel using the samples collected from the experiment we did on August 19th. Since these were new gels, we made a few errors which resulted in unreadable results.

August 21th
We attempted the most recent SDS-PAGE gel again, with successful results. This gel showed a band in the Ret2 samples at a size of around 32 kDa, while our Metallothionein protein was expected to be around 6.5 kDa. We are pondering the implications of this data. We also ran two more gels with the experiment for Ret1 data.
8 22 15 SDSGel.jpg

August 25th
We ran an SDS-Gel on Ret1, which came out inconclusive.

September 13th
The LamB-Metallothionein fusion came, we assembled and transformed. Then, we ran our last inoculation experiment over a 10 hour time period.
UMBCRet3OD.jpg

UMBCRet3Cu.jpg