Difference between revisions of "Team:Tel-Hai/Notebook"

Latest revision as of 09:22, 19 October 2016

iGEM Tel-Hai 2016

Notebook

30.6.16 Extracting the plasmids from the iGEM kit:

pSB1C3 - the backbone through which the parts should be sent
J04450 - the plasmid pSB1C3 with an added RFP gene (coding a red fluorescence protein)
K60800 - a plasmid containing a GFP gene

All plasmids were transformed into Top 10 E. Coli strain, using the heat shock method.
E. coli were spread onto LB agar plates with the antibiotic chloramphenicol and were incubated ON at 37o.

6.7.16

LB was inoculated with colonies of E.coli each transformed with one of the plasmids above that grew ON
Colonies were incubated at 37o ON

7.7.16

Extraction of plasmids from colonies using Miniprep kit and validation of presence of plasmid by running extraction product through agarose gel (1%) - fig 1.

Fig. 1 - Extraction of pSB1C3, J04450, K60800

13.7.16

Restriction of the plasmids pSB1C3 and J04450 with EcoRI and PstI. Incubation for 1 hour at 37°C
We ran the restriction products in agarose gel (1%)
Gel results indicated that that the plasmid J04450 was ok. With the plasmid pSB1C3 we did the procedure once again (fig 2)

Fig.2 - Restriction of the plasmids pSB1C3 and J04450 with EcoRI and PstI

3.8.16

We received the parts 1-4 from IDT
- part 1- contains the sequence of tGFP gene under EF1a promoter
- part 2- contains the sequence of CFTR exon 11, donor part
- part 3- contains the sequence of gRNA1 for CFTR ΔF508
- part 4- contains the sequence of gRNA2 for CFTR ΔF508
Restriction of the parts and the plasmid pSB1C3
Ligation of the parts to the plasmid backbone pSB1C3
All ligated plasmids were transformed into Top 10 E. Coli strain, using the heat shock method.
E. coli were spread onto LB agar plates with the antibiotic chloramphenicol and were incubated ON at 37o

7.8.16

Extraction of plasmids from colonies that grew using Miniprep kit

8.8.16

Restriction of the plasmids pSB1C3 + parts 1-4 with EcoRI and PstI. Incubation for 1 hour at 37°C
We ran the restriction products in agarose gel (1%)
Gel results indicated that the ligation of the plasmid with part 4 was ok (fig 3)

Fig.3 - Restriction of the plasmids pSB1C3 + parts 1+4 with EcoRI and PstI
With all the other parts, we did the procedure again at 10-16.8.16 and the ligation worked for part 1 and part 3 and for part 2 it didn’t work (fig 4)

Fig.4 - Restriction of the plasmids j044540 + parts 1+2+3 with EcoRI and PstI

17-18.8.16

We received the purified CTB protein from SIGMA-ALDRICH
The CTB was crossed linked to the plasmid pSB1C3 using a chemical linker

29.8.16

We received lung epithelial cells NCI-H 1650
The cells were thawed and seeded in a 6 well plate and incubated in a suitable incubator at 37o and 5% CO2

31.8.16

We ran the crosslink product in agarose gel (3 %)
The gel results indicates that there is a gel shift. The DNA runs through the gel in a different way compare to the negative control (pSB1C3).

Fig.5 - crosslink product. pSB1C3+CTB migration through agarose gel 3%. First well is the marker, Second well is only pSB1C3, Third well CTB only (for negative control), Fourth Well is pSB1C3+ CTB cross link showing a gel shift due to crosslinking.

11.9.16

we received a chimeric LTB protein with a DNA binding domain, dyed with FITC (green fluorescence)
we ran the protein in a polyacrylamide gel for verification of the protein size
the gel result indicate that the protein is at the correct size, ~60kD (fig 6)

Fig.6 - LTB+DBD dyed with FITC, in polyacrylamide gel.

20.9.16

we dyed a plasmid containing a GFP (pEGFPN3) with Hoechst stain (blue fluorescence)

pEGFPN3 plasmid
we purified the plasmid from the remaining dye using a Miniprep kit
we incubated the plasmid + Hoechst with the LTBD + FITC for 45 min. at 37o
NCI-H 1650 cells were washed and prepared for incubation with plasmid and protein complex and prepared for FACS
FACS analysis below (fig 7) shows that the protein the cells but we were not able to detect the blue Hoechst staining

Fig.7 - FACS results

Preparing cells for confocal-

We seeded cells in 24 well confocal plates for the experiment the next day

21.9.16

we incubated the plasmid + Hoechst with the CTBD + FITC for 1 hour at 37o
Cell medium was added to the complex to achieve 200µl and the whole reaction was added to the cells.
Cells were incubated in a suitable incubator at 37o and 5% CO2 wrapped in aluminum foil for 5 hours
Cells were pictured using a confocal microscope
The picture shows (fig 8) the green staining of FITC inside the cells. Looking at the Hoechst staining we received a lot of background and assumed that the DNA degraded

Fig.8 - confucal results. Green staining of epithelial cells (NCI-H1650) by LTBD stained with FITC. LTBD binds specifically GM1 on epithelial cells and enters by endocytosis

9.10.16

Binding plasmid in constant concentration (400ng) to CTB + DNA binding domain

we linearized the plasmid pEGFPN3 using EcoR1, 1 hour at 37o
we incubated the linearized plasmid with increased concentrations of the protein- 30,60,90,150,300,600 ng, and with a CTB protein without a DNA binding domain, for 45 min. at 37o
we ran the reactions in agarose gel (1%)
gel results (fig 9) indicate that the optimal concentration of protein that binds 400ng of DNA is 300ng

Fig.9 - Binding pSB1C3 plasmid in constant concentration (400ng) to LTBD. gel results indicate that the optimal concentration of protein that binds 400ng of DNA is 300ng. *LTBD - Heat-Labile Toxin (LT), an analog to CT

@@ Line 7: / Line 7: @@
 <div class="notebook-entry">
-   <h3>30.6.16</h3>
+   <h4>30.6.16</h4>
    <h4>Extracting the plasmids from the iGEM kit:</h4>
    <ol>
@@ Line 21: / Line 21: @@
 <div class="notebook-entry">
-<h3>6.7.16</h3>
+<h4>6.7.16</h4>
 <ul>
    <li>LB was inoculated with colonies of E.coli each transformed with one of the plasmids above that grew ON</li>
@@ Line 29: / Line 29: @@
 <div class="notebook-entry">
-   <h3>7.7.16</h3>
+   <h4>7.7.16</h4>
    <ul>
      <li>Extraction of plasmids from colonies using Miniprep kit and validation of presence of plasmid by running extraction product through agarose gel (1%) - fig 1. <br />
      <figure>
-       <img src="img_pulpit.jpg" alt="Fig.1 - Extraction of pSB1C3, J04450, K60800">
+       <img src="/wiki/images/4/48/T--Tel-Hai--fig1.png" alt="Fig.1 - Extraction of pSB1C3, J04450, K60800">
        <figcaption>Fig. 1 - Extraction of pSB1C3, J04450, K60800</figcaption>
      </figure>
@@ Line 43: / Line 43: @@
 <div class="notebook-entry">
-   <h3>13.7.16</h3>
+   <h4>13.7.16</h4>
    <ul>
      <li>Restriction of the plasmids pSB1C3 and J04450 with EcoRI and PstI. Incubation for 1 hour  at 37°C</li>
@@ Line 49: / Line 49: @@
      <li>Gel results indicated that that the plasmid J04450 was ok. With the plasmid pSB1C3 we did the procedure once again (fig 2)
        <figure>
-         <img src="img_pulpit.jpg" alt="Fig.2 - Restriction of the plasmids pSB1C3 and J04450 with EcoRI and PstI">
+         <img src="/wiki/images/4/4c/T--Tel-Hai--fig2.png" alt="Fig.2 - Restriction of the plasmids pSB1C3 and J04450 with EcoRI and PstI">
          <figcaption>Fig.2 - Restriction of the plasmids pSB1C3 and J04450 with EcoRI and PstI</figcaption>
        </figure>
@@ Line 58: / Line 58: @@
 <div class="notebook-entry">
-   <h3>3.8.16</h3>
+   <h4>3.8.16</h4>
    <ul>
      <li>We received the parts 1-4 from IDT
@@ Line 77: / Line 77: @@
 <div class="notebook-entry">
-   <h3>7.8.16</h3>
+   <h4>7.8.16</h4>
    <ul>
      <li>Extraction of plasmids from colonies that grew using Miniprep kit</li>
@@ Line 84: / Line 84: @@
 <div class="notebook-entry">
-   <h3>8.8.16</h3>
+   <h4>8.8.16</h4>
    <ul>
      <li>Restriction of the plasmids pSB1C3 + parts 1-4 with EcoRI and PstI. Incubation for 1 hour  at 37°C</li>
@@ Line 90: / Line 90: @@
      <li>Gel results indicated that the ligation of the plasmid with part 4 was ok (fig 3)<br/>
        <figure>
-         <img src="img_pulpit.jpg" alt="Fig.3 - Restriction of the plasmids pSB1C3 + parts 1+4 with EcoRI and PstI">
+         <img src="/wiki/images/a/a8/T--Tel-Hai--fig3.png" alt="Fig.3 - Restriction of the plasmids pSB1C3 + parts 1+4 with EcoRI and PstI">
          <figcaption>Fig.3 - Restriction of the plasmids pSB1C3 + parts 1+4 with EcoRI and PstI</figcaption>
        </figure>
@@ Line 96: / Line 96: @@
      <li>With all the other parts, we did the procedure again at 10-16.8.16 and the ligation worked for part 1 and part 3 and for part 2 it didn’t work  (fig 4)<br />
        <figure>
-         <img src="img_pulpit.jpg" alt="Fig.4 - Restriction of the plasmids j044540 + parts 1+2+3 with EcoRI and PstI">
+         <img src="/wiki/images/3/3d/T--Tel-Hai--fig4.png" alt="Fig.4 - Restriction of the plasmids j044540 + parts 1+2+3 with EcoRI and PstI">
          <figcaption>Fig.4 - Restriction of the plasmids j044540 + parts 1+2+3 with EcoRI and PstI</figcaption>
        </figure>
@@ Line 105: / Line 105: @@
 <div class="notebook-entry">
-   <h3>17-18.8.16</h3>
+   <h4>17-18.8.16</h4>
    <ul>
      <li>We received the purified CTB protein from SIGMA-ALDRICH</li>
@@ Line 115: / Line 115: @@
 <div class="notebook-entry">
-   <h3>29.8.16</h3>
+   <h4>29.8.16</h4>
    <ul>
      <li>We received lung epithelial cells NCI-H 1650</li>
@@ Line 123: / Line 123: @@
 <div class="notebook-entry">
-   <h3>31.8.16</h3>
+   <h4>31.8.16</h4>
    <ul>
      <li>We ran the crosslink product in agarose gel (3 %)</li>
      <li>The gel results indicates that there is a gel shift. The DNA runs through the gel in a different way compare to the negative control (pSB1C3).
        <figure>
-         <img src="img_pulpit.jpg" alt="Fig.5 - crosslink product. pSB1C3+CTB migration through agarose gel 3%. First well is the marker, Second well is only pSB1C3, Third well CTB only (for negative control), Fourth Well is pSB1C3+ CTB cross link showing a gel shift due to crosslinking. ">
+         <img src="/wiki/images/7/74/T--Tel-Hai--fig5.png" alt="Fig.5 - crosslink product. pSB1C3+CTB migration through agarose gel 3%. First well is the marker, Second well is only pSB1C3, Third well CTB only (for negative control), Fourth Well is pSB1C3+ CTB cross link showing a gel shift due to crosslinking. ">
          <figcaption>Fig.5 - crosslink product. pSB1C3+CTB migration through agarose gel 3%. First well is the marker, Second well is only pSB1C3, Third well CTB only (for negative control), Fourth Well is pSB1C3+ CTB cross link showing a gel shift due to crosslinking. </figcaption>
        </figure>
@@ Line 137: / Line 137: @@
 <div class="notebook-entry">
-   <h3>11.9.16</h3>
+   <h4>11.9.16</h4>
    <ul>
      <li>we received a chimeric LTB protein with a DNA binding domain, dyed with FITC (green fluorescence) </li>
@@ Line 143: / Line 143: @@
      <li>the gel result indicate that the protein is at the correct size, ~60kD (fig 6)
        <figure>
-         <img src="img_pulpit.jpg" alt="Fig.6 - LTB+DBD dyed with FITC, in polyacrylamide gel.">
+         <img src="/wiki/images/5/51/T--Tel-Hai--fig6.png" alt="Fig.6 - LTB+DBD dyed with FITC, in polyacrylamide gel.">
          <figcaption>Fig.6 - LTB+DBD dyed with FITC, in polyacrylamide gel.</figcaption>
        </figure>
@@ Line 152: / Line 152: @@
 <div class="notebook-entry">
-   <h3>20.9.16</h3>
+   <h4>20.9.16</h4>
    <ul>
      <li>we dyed a plasmid containing a GFP (pEGFPN3) with Hoechst stain (blue fluorescence) <br />
        <figure>
-         <img src="img_pulpit.jpg" alt="pEGFPN3 plasmid">
+         <img src="/wiki/images/7/70/T--Tel-Hai--pic1.png" alt="pEGFPN3 plasmid">
          <figcaption>pEGFPN3 plasmid</figcaption>
        </figure>
@@ Line 165: / Line 165: @@
      <li>FACS analysis below (fig 7) shows that the protein the cells but we were not able to detect the blue Hoechst staining<br />
        <figure>
-         <img src="img_pulpit.jpg" alt="Fig.7 - FACS results">
+         <img src="/wiki/images/c/cd/T--Tel-Hai--fig7.png" alt="Fig.7 - FACS results">
          <figcaption>Fig.7 - FACS results</figcaption>
        </figure>
@@ Line 178: / Line 178: @@
 <div class="notebook-entry">
-   <h3>21.9.16</h3>
+   <h4>21.9.16</h4>
    <ul>
      <li>we incubated the plasmid + Hoechst with the CTBD + FITC for 1 hour at 37o</li>
@@ Line 186: / Line 186: @@
      <li>The picture shows (fig 8) the green staining of FITC inside the cells. Looking at the Hoechst staining we received a lot of background and assumed that the DNA degraded <br />
        <figure>
-         <img src="img_pulpit.jpg" alt="Fig.8 - confucal results. Green staining of epithelial cells (NCI-H1650) by LTBD stained with FITC. LTBD binds specifically GM1 on epithelial cells and enters by endocytosis">
+         <img src="/wiki/images/c/ca/T--Tel-Hai--fig8.png" alt="Fig.8 - confucal results. Green staining of epithelial cells (NCI-H1650) by LTBD stained with FITC. LTBD binds specifically GM1 on epithelial cells and enters by endocytosis">
          <figcaption>Fig.8 - confucal results. Green staining of epithelial cells (NCI-H1650) by LTBD stained with FITC. LTBD binds specifically GM1 on epithelial cells and enters by endocytosis</figcaption>
        </figure>
@@ Line 195: / Line 195: @@
 <div class="notebook-entry">
-   <h3>9.10.16</h3>
+   <h4>9.10.16</h4>
    <h5>Binding plasmid in constant concentration (400ng) to CTB + DNA binding domain</h5>
    <ul>
@@ Line 203: / Line 203: @@
      <li>gel results  (fig 9)  indicate that the optimal concentration of protein that binds 400ng of DNA is 300ng <br/>
        <figure>
-         <img src="img_pulpit.jpg" alt="Fig.8 - Binding pSB1C3 plasmid in constant concentration (400ng) to LTBD. gel results indicate that  the optimal concentration of protein that binds 400ng of DNA is 300ng.">
+         <img src="/wiki/images/2/2b/T--Tel-Hai--fig9.png" alt="Fig.8 - Binding pSB1C3 plasmid in constant concentration (400ng) to LTBD. gel results indicate that  the optimal concentration of protein that binds 400ng of DNA is 300ng.">
          <figcaption>Fig.9 - Binding pSB1C3 plasmid in constant concentration (400ng) to LTBD. gel results indicate that  the optimal concentration of protein that binds 400ng of DNA is 300ng. <small>*LTBD - Heat-Labile Toxin (LT), an analog to CT</small></figcaption>
        </figure>