Difference between revisions of "Team:NU Kazakhstan/Notebook"

 
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<div class="container">
 
<div class="container">
 
<div class="news">
 
<div class="news">
 +
 
<h2>Notebook</h2>
 
<h2>Notebook</h2>
 
<h3>1.06.15</h3>
 
<h3>1.06.15</h3>
Line 140: Line 141:
 
<li>TetR</li>
 
<li>TetR</li>
 
<li>tetR+ dter</li></ol></li></ol>
 
<li>tetR+ dter</li></ol></li></ol>
<img src="https://static.igem.org/mediawiki/2015/d/de/NU_Kazakhstan.notebook-1.jpg" style="width:50%" align="center">
 
  
  
 +
<h3>5.06.15</h3>
 +
<p>Protocol for making the competent dh5alpha</p>
 +
<ol><li>Inoculate a single colony into 5 mL LB in 50 mL falcon tube (taped on a loosed tap)</li>
 +
<li>Grow on 37°C with shaking for 130 rpm overnight</li>
 +
<li>Use 1 mL to inoculate 100 mL to inoculate 100 mL of LB in 250 mL bottle the next morning</li>
 +
<li>Shake 37°C for 1.5-3 hours</li>
 +
<li>When OD is between 0.3-0.4 put cell on ICE</li>
 +
<li>Hold cells on ice for the 10 minutes</li>
 +
<li>Collect cells by centrifugation for 3 min at maximum speed (4700 rpm)</li>
 +
<li>Decant supernatant and gently resuspend on 10 mL ice-cold 0.1 M CaCl2  (prepared in ddH2O). Treat them gently.</li>
 +
<li>Incubate on ice for 20 minutes.</li>
 +
<li>Centrifuge again at maximum speed (4700 rpm)</li>
 +
<li>Discard supernatant and gently resuspend in 5 mL cold 0.1 M CaCl2 (15% glycerol)</li>
 +
<li>Dispence into chilled microtubes, put on the dry ice. Perform this procedure very quickly!</li>
 +
<li>Freeze in -80°C</li></ol>
  
5.06.15
+
<h3>6.06.15</h3>
 
+
<p><ol><li>PCR clean-up of:<br>
                        Protocol for making the competent dh5alpha
+
-[FixK2+rbs] = 30.15 ng/µl<br>
1.      Inoculate a single colony into 5 mL LB in 50 mL falcon tube (taped on a loosed tap)
+
-[tetR] = 57.47 ng/</li>
2.      Grow on 37°C with shaking for 130 rpm overnight
+
<li>Gel extraction after digestion:<br>
3.      Use 1 mL to inoculate 100 mL to inoculate 100 mL of LB in 250 mL bottle the next morning
+
-[FixK2 + rbs] = 5.862 ng/µl<br>
4.      Shake 37°C for 1.5-3 hours
+
-[tetR] = 4.621 ng/µl</li>
5.      When OD is between 0.3-0.4 put cell on ICE
+
<li>
6.      Hold cells on ice for the 10 minutes
+
Ligation with Fermentas enzymes:<br>
7.      Collect cells by centrifugation for 3 min at maximum speed (4700 rpm)
+
-[tetR] = 20/4.621ng/µl = 4.3 µl + [FixK2+ rbs] = 40ng/5.862 ng/µl = 7 µl<br>
8.      Decant supernatant and gently resuspend on 10 mL ice-cold 0.1 M CaCl2  (prepared in ddH2O). Treat them gently.
+
-[tetR]=4 ng/µl + [double terminator]=2ng/µl<br>
9.      Incubate on ice for 20 minutes.
+
-TetR + double terminator<br>
10.  Centrifuge again at maximum speed (4700 rpm)
+
-Pveg + FixJ</li>
11.  Discard supernatant and gently resuspend in 5 mL cold 0.1 M CaCl2 (15% glycerol)
+
<li>Ligation with NEB enzymes:<br>
12.  Dispence into chilled microtubes, put on the dry ice. Perform this procedure very quickly!
+
-Pveg + FixJ<br>
13.  Freeze in -80°C
+
-FixK+ rbs+tetR<br>
 
+
-[FixK2 + rbs]=10.66 ng/µl + [tetR]=23.08ng/µl<br>
 
+
-TetR+double terminator</li></ol>
 
+
Results: Ligation  of tetR + double terminator (NEB) 50 ng: 50 ng have worked.
 
+
</p>
 
+
 
+
6.06.15
+
#1
+
PCR clean-up of the [FixK2+rbs] = 30.15 ng/µl
+
[tetR] = 57.47 ng/
+
#2
+
[FixK2 + rbs] (PCR product digested) = 5.862 ng/µl
+
[tetR] = 4.621 ng/µl
+
#3
+
Fermentas Ligation tetR and double terminator
+
[tetR] = 20/4.621ng/µl = 4.3 µl
+
[FixK2+ rbs] = 40ng/5.862 ng/µl = 7 µl
+
Sterile water = 1µl
+
Ligase= 1 µl
+
Buffer = 2 µl
+
#4 Ligation of
+
·        Pveg + FixJ
+
·        FixK+ rbs+tetR
+
·        tetR+double terminator
+
 
   
 
   
+
<h3>8.06.15</h3>
        Ligation of tetR with double terminator with NEB- enzymes
+
<p>Transformation of Ligated products:
1:1
+
<ul><li>Pveg + FixJ</li>
50 ng: 50 ng
+
<li>tetR+ double terminator</li>
tetR = 7.518 ng/µl
+
<li>FixK2+rbs+tetR</li>
+
<li>FixK2+rbs+tetR (PCR)</li>
tetR; 6.7 ng/ µl
+
<li>FixK2+rbs+tetR</li>
double terminator; 3.3 µl
+
<li>FixK2+tetR+ double terminator</li>
T4 ligase: 1 µl
+
<li>tetR+ double terminator</li></ul></p>
T4 buffer: 2 µl
+
Sterile water: 7 µl
+
+
                                Pveg (19.59)+ FixJ (8.968)(Fermentas)
+
50ng: 50 ng
+
Pveg =2 µl
+
FixJ = 5.6 µl
+
T4= 1 µl
+
Buffer= 2 µl
+
Sterile water= 8.8 µl
+
                          FixK2+ rbs(10.66 ng/µl)+ tetR  (23.08ng/µl)  (NEB)
+
FixK2+ rbs = 4.7 µl
+
tetR= 2.2 µl
+
T4-ligase = 1µl
+
T4-buffer= 2 µl
+
Sterile water = 10.1 µl
+
   
+
                              tetR(4 ng/µl)+ double terminator (2ng/µl)(Fermentas)                 
+
tetR= 8 µl
+
double terminator= 9 µl
+
T4 ligase = 1 µl
+
Buffer= 2 µl
+
+
                                    tetR + double terminator (Fermentas )
+
25 ng: 25 ng
+
+
tetR= 5 µl
+
double terminator=12 µl
+
T4 ligase = 1 µl
+
Buffer = 2 µl
+
+
Results; Ligation  of the tetR + double terminator (NEB) 50 ng: 50 ng have worked
+
 
+
8.06.15
+
#1
+
Transformation of the Ligated products of the
+
·        Pveg + FixJ
+
·        tetR+ double terminator
+
·        FixK2+rbs+tetR
+
·        FixK2+rbs+tetR (PCR)
+
·        FixK2+rbs+tetR
+
·        FixK2+tetR+ double terminator
+
·        tetR+ double terminator
+
 
+
9.06.15
+
 
+
#1
+
·        Pveg +FixJ = 98.29 ng/µl
+
·        tetR+ double terminator = 65.34 ng/µl
+
·        FixK2+ rbs+ tetR = 83.32 ng/µl
+
·        FixK2+ rbs+ tetR = 81.64 ng/µl
+
·        tetR+ double terminator  (NEB) = 101.3 ng/µl
+
·        tetR+ double terminator = 100.4 ng/µl
+
+
#2
+
Polymerase chain Reaction
+
+
              50µl
+
4
+
Master Mix
+
              25µl
+
100 µl
+
tetR+ double terminator
+
            0.15 µl
+
0.6 µl
+
VF2
+
              5µl
+
20 µl
+
VR
+
              5µl
+
20µl
+
H2O
+
            14.8 µl
+
59.4 µl
+
+
+
              50µl
+
4
+
Master Mix
+
              25µl
+
100 µl
+
FixK2+rbs+ tetR
+
            0.12 µl
+
0.48 µl
+
VF2
+
              5µl
+
20µl
+
VR
+
              5µl
+
20µl
+
H2O
+
            14.88 µl
+
59.52 µl
+
+
+
              50µl
+
4
+
Master Mix
+
              25µl
+
100 µl
+
Pveg (237 base) + FixJ (1796)
+
            0.1 µl
+
0.4 µl
+
VF2
+
              5µl
+
20 µl
+
VR
+
              5µl
+
20µl
+
H2O
+
            14.9 µl
+
59.6 µl
+
+
+
              50µl
+
4
+
Master Mix
+
              25µl
+
100 µl
+
FixK2+rbs+tetR
+
            0.12 µl
+
0.48 µl
+
VF2
+
              5µl
+
20 µl
+
VR
+
              5µl
+
20µl
+
H2O
+
            14.88 µl
+
59.52µl
+
+
+
+
+
              50µl
+
4
+
Master Mix
+
              25µl
+
100 µl
+
tetR+ double terminator (Fermentas)
+
            0.1 µl
+
59.6 µl
+
VF2
+
              5µl
+
20 µl
+
VR
+
              5µl
+
20µl
+
H2O
+
            14.9 µl
+
59.4 µl
+
+
+
              50µl
+
4
+
Master Mix
+
              25µl
+
100 µl
+
tetR+ double terminator (fermentas) (2:1 fermentas)
+
            0.1 µl
+
0.4 µl
+
VF2
+
              5µl
+
20 µl
+
VR
+
              5µl
+
20µl
+
H2O
+
            14.9 µl
+
59.6 µl
+
+
Results: Only the ligation of the tetR + double terminator with NEB enzyme have worked
+
 
+
 
+
 
+
 
+
 
+
10.06.15
+
 
+
#1
+
Restriction Digest of the FixK2+ rbs  with EcoRI and SpeI
+
DNA: 1000 ng/ 75.79ng/µl = 13.2 µl
+
EcoRI: 0.5 µl
+
SpeI: 0.5 µl
+
Cut smart: 5 µl
+
Sterile water: 30.8 µl
+
#2
+
Restriction Digest of tetR + double terminator with EcoRI and XbaI
+
DNA: 1000 ng/101.3 ng/µl = 9.87 µl
+
EcorI: 0.5 µl
+
XbaI: 0.5 µl
+
Cut smart: 5 µl
+
Sterile water: 34.13 µl
+
 
+
11.06.15
+
 
+
#1 Gel extract of the Pveg  and FixJ
+
[Pveg ] = 3.174 ng/µl
+
[FixJ] = 2.9045 ng/µl
+
#2 Ligation of the Pveg  and FixJ
+
T4 buffer: 2 µl
+
T4 ligase: 1 µl
+
Pveg: 25 ng/ 3.174ng/µl = 7.87= 8 µl
+
FixJ: 25 ng/2.9045 ng/µl = 8.61= 9 µl
+
 
+
12.06.15
+
 
+
№1  PCR of the S.mutans 16s  rRNA with synthesized primers
+
S.mutans after gel extraction and genome isolation with Instagene Matrix
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
1 reaction
+
                8 reactions
+
  DNA
+
15µl
+
120 µl
+
Forward primer
+
5 µl
+
40 µl
+
Reverse primer
+
5 µl
+
40 µl
+
Master Mix
+
25 µl
+
200 µl
+
Sterile Water
+
0
+
0
+
TOTAL
+
50 µl
+
400 µl
+
 
+
Results:
+
 
+
 
+
 
+
№ 2 Single digest of the circular plasmid with EcoRI (NEB), SpeI (NEB), Aah1, and EcoRI (fermentas)
+
 
+
 
+
14.06.15
+
 
+
№1  S.mutans 16s rRNA PCR
+
 
+
1 reaction
+
                8 reactions
+
  DNA
+
15µl
+
120 µl
+
Forward primer
+
5 µl
+
40 µl
+
Reverse primer
+
5 µl
+
40 µl
+
Master Mix
+
25 µl
+
200 µl
+
Sterile Water
+
0
+
0
+
TOTAL
+
50 µl
+
400 µl
+
+
№2
+
Digest of the Pet 21 with NotI
+
·        DNA= 1000/240.8 ng/µl = 4.15 µl
+
·        NotI = 1µl
+
·        Cut smart = 5 µl
+
·        Sterile water = 39.85 µl
+
№3 Digest of the GFP with NotI
+
·        DNA = 1000 ng/117.2 ng/µl = 8.53 µl
+
·        NotI = 1µl
+
·        Cut smart = 5 µl
+
·        Sterile water = 35.47 µl
+
  №4 Pveg  and FixJ Ligation  (2033 base pair)
+
 
+
 
+
 
+
№5 Digest of the FixK2+rbs with SpeI  (NEB)  (PCR product digest)
+
·        DNA =1000ng/121.9 ng/µl = 8.2 µl
+
·        SpeI = 1µl
+
·        Cut smart = 5 µl
+
·        Sterile water = 35.8 µl
+
№5 Digest of the FixK2+rbs with Aah1  (SibEnzyme)  (PCR product digest)
+
·        DNA = 1000 ng/121.9 ng/µl = 8.2 µl
+
·        Aah1 = 1 µl
+
·        SEB buffer = 5µl
+
·        BSA= 0.5µl
+
·        Sterile water = 35.3 µl 
+
+
Results: The size of the FixK2+rbs (265 base pairs) do not coincide with the gel
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
15.06.15
+
 
+
№1 Solution on the day of the 15.06.2015
+
Transformation of the parts from Kit 2014
+
·        Promoter FixK2 (Plate 1, 19G) – 250 base pair 
+
·        RBS (Plate 4, 4G) – 15 base pairs
+
·        FixJ  (Plate 1, 10N) – 1796  base pairs
+
·        RFP mCherry with double terminator (Plate 1, 13K) = 861 b.p
+
·        Promoter Veg  (plate1, 20G) =
+
+
№2 Genome extraction from S.mutans with Instagene Matrix
+
+
№3
+
PCR of the 16S rRNA of the S.mutans
+
Photo will be here
+
 
+
16.06.2015
+
№ 1 Mini prep of of the parts
+
pFixK2 = 78.03 ng/µl
+
Rbs = 171.8  ng/µl
+
FixJ = 124.5 ng/µl
+
Rfp + double terminator = 82.75 ng/µl
+
Promoter Veg = 42.20 ng/µl
+
 
+
 
+
№ 2 Double Digest of the FixK2
+
DNA : 12.82 µl
+
Cut smart: 5 µl
+
SpeI:0.5 µl
+
EcoRI: 0.5 µl
+
Sterile water: 38.18 µl            Overall: 50 µl
+
          №3 Single digest of the FixK2
+
DNA: 12.82 µl
+
SpeI: 1 µl
+
Сut Smart Buffer: 5 µl
+
Sterile Water: 31.18 µl
+
№ 4 Double Digest of the RBS
+
DNA: 5.82 µl
+
EcoRI: 0.5 µl
+
XbaI : 0.5 µl
+
Buffer: 5 µl
+
Sterile water: 38. 18 µl
+
 
+
 
+
 
+
 
+
    № 5 Colony PCR
+
 
+
 
+
17.06.2015
+
 
+
№1 Gel extraction of the FixK2 and rbs
+
FixK2 (double digest) = 4.128 ng/µl
+
FixK2 (single digest) = 3.315 ng/µl
+
Rbs = 3.051 ng/µl
+
 
+
 
+
№2 Ligation of the FixK2 (double digest) + rbs
+
FixK2 = 7µl
+
Rbs = 9 µl
+
T4 ligase = 1 µl
+
T4 buffer = 2 µl
+
Sterile water = 1 µl
+
№ 3 Ligation of the FixK2(single digest )+rbs in order to obtain linear plasmid
+
FixK2 = 8 µl
+
rbs = 9 µl
+
T4 -ligase = 1 µl
+
T4 buffer = 2 µl
+
 
+
№ 4. Double digest of 1st line -Pveg (EcorI-SpeI), 2nd line FixJ (EcorI-XbaI), 3rd line RFP (EcorI - XbaI):
+
 
+
 
+
 
+
№ 5. Transformation of (Fixk2 + rbs) was done, one tube.
+
 
+
18. 06.2015
+
 
+
Double check Transformation of [Fixk2 + rbs]
+
We did not simultaneously perform digest and ligation since we wanted to check the work of the enzymes in double digest
+
+
2. Gel extraction of parts: Pveg,  FixJ, RFP
+
+
3. Ligation reaction (rest parts):
+
Pveg + FixJ
+
Pveg +RFP. Reaction volumes for two reactions are the same:
+
 
+
ul = µl
+
Pveg = 24 ul
+
FixJ/RFP = 48 ul
+
Buffer  = 8 ul
+
ligase = 4 ul
+
 
+
However, from now on we will use the the protocol  DNA distribution according to 50 ng (insert) : 50 ng (backbone) notation
+
4. Chrm and Bacitracin plates were done (Bacitracin Mol. weight is 1422.71 g/mol  and the concentration in stock (ex: 500 ml LB agar) should be 0.2  µM, while the conc.  of bacitracin is 50 mg/ml):
+
 
+
(50 mg/ml)/ 1422. 71 = 0.035 M in eppendorf tube
+
 
+
0.035  M  x Y= 0.2 µM x 500 ml
+
Y = 0.00286 ml = 2. 86 µl
+
 
+
Chrm conc: 500 µl for 500 ml of LB agar
+
 
+
5. MinElute Reaction cleanup kit was obtained (to purify after digestion and go directly to transformation) Ethanol (220 ml) was added
+
 
+
6. Kit has arrived!!!!!)
+
 
+
7. Miniprep of LB broth (Fixk2+rbs)
+
FixK2+ rbs = 217.7 ng/µl
+
 
+
19. 06. 2015
+
№ 1 Transformation of the ligated parts 
+
1- agarplate ; dCas9 under xylose  (2015 Kit, plate=5, 8L) chloromphenicol resistant
+
2- agar plate: Anderson promoter (plate 1, 20 K) chloromphenicol resistant
+
3-agar plate: Anderson promoter (plate1, 22A)
+
4-agar plate: Anderson promoter (plate 1, 22 K)
+
5-agar plate; GFP (plate 4, 21J)
+
6-agar plate; Mukhtars part (plate 5, 24D)
+
7-agar plate; P veg+ FixJ
+
8-agar plate; Pveg+ RFP
+
9-agar plate; Pveg+ FixJ  (20 µl)
+
10 - agar plate: Pveg + RFP (20 µl )
+
 
+
 
+
 
+
 
+
 
+
  
 +
<h3>9.06.15</h3>
 +
<p>PCR after ligation:<br>
 +
-tetR+ double terminator<br>
 +
-FixK2+rbs+ tetR<br>
 +
-Pveg + FixJ<br>
 +
-FixK2+rbs+tetR<br>           
 +
-tetR+ double terminator<br>
 +
-tetR+ double terminator (fermentas)<br>
 +
Results: Only ligation of the tetR + double terminator with NEB enzyme have worked</p>
  
2. PCR confirmation of the Fixk2+rbs ligation part obtained from miniprep
+
<h3>10.06.15</h3>
1- ladder, 2- FixK2, 3- FixK2+rbs, 4 - FixK2+ rbs
+
<p>Restriction Digest:<br>
Photo will be here
+
-FixK2+ rbs<br>
Results; The size of the FixK2, FixK2 + rbs do not coincide with the right one.
+
-TetR + double terminator</p>
3. Genome extraction from S.mutans by Instagene Genome Extraction and PCR
+
  
PCR
+
<h3>11.06.15</h3>
 +
<p>1.Gel extracts of:<br>
 +
[Pveg ] = 3.174 ng/µl<br>
 +
[FixJ] = 2.9045 ng/µl<br>
 +
2.Ligation of Pveg + FixJ</p>
  
S.Mutans = 15 ul
+
<h3>12.06.15</h3>
P1 = 5 ul
+
<p>PCR of S.mutans 16s  rRNA with synthesized primers
P2 = 5 ul
+
<img src="https://static.igem.org/mediawiki/2015/4/4b/NU_Kazakhstan.notebook.Smu2.jpg" style="width:100%"><br>
MM (Buffer) = 25 ul
+
Figure 1: There were two types of colonies growing on bacitracin selective plate. They are expected to be S. mutans and S.sobrinus. It was suggested that Sm479F/R primer pair is highly specific for identification of S.mutans(Chen et al.,2007). In the picture you see two sets of lanes corresponding to the two types of colonies from plate, and first set of lanes is of correct size.<br>
  
 +
<h3>14.06.15</h3>
 +
<p>1.Digest of the Pet 21(plasmid) with NotI<br>
 +
2.Digest of the GFP with NotI<br>
 +
3.Ligation of Pveg with FixJ<br>
 +
4.Digest of FixK2+rbs with SpeI  (NEB)<br>
 +
5.Digest of FixK2+rbs with Aah1  (Syberian Enzyme)<br>
 +
Results: The size of FixK2+rbs (265 bp) does not coincide with the gel</p>
 +
<h3>15.06.15</h3>
 +
<p>1.Transformation of parts from Kit 2014:<br>
 +
<ul><li>Promoter FixK2 (Plate 1, 19G) – 250 bp</li> 
 +
<li>RBS (Plate 4, 4G) – 15 bp</li>
 +
<li>FixJ  (Plate 1, 10N) – 1796  bp</li>
 +
<li>RFP mCherry with double terminator (Plate 1, 13K) = 861 bp</li>
 +
<li>Promoter Veg  (plate1, 20G) = 237 bp</li></ul>
 +
2.Genome extraction from S.mutans with Instagene Matrix<br>
 +
3.PCR of 16S rRNA of the S.mutans</p>
  
Fikx2 = 0.4 ul (on 3 tubes per 20 ul)
+
<h3>16.06.2015</h3>
VF2 = 6 ul
+
<p>1.Mini-prep:
VR = 6 ul
+
<ol><li>pFixK2 = 78.03 ng/µl</li>
MM = 30 ul
+
<li>Rbs = 171.8  ng/µl</li>
water = 17.6 ul
+
<li>FixJ = 124.5 ng/µl</li>
 +
<li>Rfp + double terminator = 82.75 ng/µl</li>
 +
<li>Promoter Veg = 42.20 ng/µl</li></ol>
 +
2.Double Digest of FixK2 with SpeI and EcoRI<br>
 +
3.Single digest of FixK2 with SpeI<br>
 +
4.Double Digest of RBS with EcoRI and XbaI</p>
  
 +
<h3>17.06.2015</h3>
 +
<p>Gel extraction of FixK2 and rbs<br>
 +
-FixK2 (double digest) = 4.128 ng/µl<br>
 +
-FixK2 (single digest) = 3.315 ng/µl<br>
 +
-Rbs = 3.051 ng/µl<br>
 +
2.Ligation of FixK2 (double digested) + rbs<br>
 +
3.Ligation of FixK2(single digested) + rbs in order to obtain linear plasmid<br>
 +
4.Double digest of:<br>
 +
-Pveg (EcorI-SpeI)<br>
 +
-FixJ (EcorI-XbaI)<br>
 +
-RFP (EcorI - XbaI)<br>
 +
5.Transformation of Fixk2 + rbs.</p>
  
 +
<h3>18.06.2015</h3>
 +
<p>1.Double check Transformation of [Fixk2 + rbs]<br>
 +
We did not simultaneously perform digest and ligation since we wanted to check the work of enzymes in double digest<br>
 +
2.Gel extraction of parts: Pveg,  FixJ, RFP<br>
 +
3.Ligation reaction:<br>
 +
-Pveg + FixJ<br>
 +
-Pveg +RFP<br>
 +
4.Chrm and Bacitracin plates were done (Bacitracin Mol. weight is 1422.71 g/mol  and the concentration in stock (ex: 500 ml LB agar) should be 0.2  µM, while the conc. of bacitracin is 50 mg/ml):<br>
 +
(50 mg/ml)/ 1422. 71 = 0.035 M in eppendorf tube<br>
 +
0.035  M  x Y= 0.2 µM x 500 ml<br>
 +
Y = 0.00286 ml = 2. 86 µl<br>
 +
Chrm conc: 500 µl for 500 ml of LB agar<br>
 +
5. Miniprep of Fixk2+rbs:
 +
[FixK2+ rbs] = 217.7 ng/µl</p>
  
RESULTS:
+
<h3>19.06.2015</h3>
 +
<p><ol><li>Transformations of parts:<br>
 +
<ol><li>dCas9 under xylose  (2015 Kit, plate=5, 8L) chloromphenicol resistant</li>
 +
<li>Anderson promoter (plate 1, 20 K) chloromphenicol resistant</li>
 +
<li>Anderson promoter (plate1, 22A)</li>
 +
<li>Anderson promoter (plate 1, 22 K)</li>
 +
<li>GFP (plate 4, 21J)</li>
 +
<li>Pveg+ FixJ</li>
 +
<li>Pveg+ RFP</li>
 +
<li>Pveg+ FixJ  (20 µl)</li>
 +
<li>Pveg + RFP (20 µl )</li></ol></li>
  
S.Mutans = No band amplification
+
<li>PCR confirmation of the Fixk2+rbs ligation part obtained from miniprep
 +
<ol><li>ladder</li>
 +
<li>FixK2</li>
 +
<li>FixK2 + rbs</li>
 +
<li>FixK2 + rbs</li></ol>
 +
Results: Size of FixK2, FixK2 + rbs do not coincide with the right one.</li> 
 +
<li>Genome extraction from S.mutans by Instagene Genome Extraction and PCR<br>
 +
RESULTS:<br>
 +
S.Mutans = No band amplification<br>
 
FixK2 = 600 bp part was shown as amplified
 
FixK2 = 600 bp part was shown as amplified
 +
</li></ol>
  
Photo will be here!
+
<h3>25.06.2015</h3>
 +
<p><ol><li>PCR of S.mutans. Plate #2 (grown from single colony). Genome isolated by Instagene Matrix</li>
 +
<li>PCR of S.mutans (colony taken from plate #2)</li>
 +
<li>Negative control with the Bacillus Subtilis genome. Genome of the Bacillus was extracted with Instagene matrix</li></ol>
 +
Results:  The amplicon of size 479 base pair is detected. First raw is the ladder, second is the amplicon which was PCR-ed with extension time 1 min, third is the amplicon with extension time of 14 seconds.</p>
  
20.06.2015
 
  
25.06.2015
+
<h3>30.06.2015</h3>
 +
<ol><li>Transformation of FixK2 ( Kit 2015, Plate 1, 19G)</li>
 +
<li>Restriction digest of FixJ with EcoRI and XbaI</li> 
 +
<li>Restriction Digest of Pveg with EcoRI and SpeI </li>
 +
<li>Gel extraction of the FixJ and Pveg<br>
 +
FixJ = 2.217 ng/ul<br>
 +
Pveg =2.892 ng/ul</li>
 +
<li>Ligation was performed in two ways:<br>
 +
-DNA was taken from gel extraction<br>
 +
-DNA was taken directly from digestion solution without clean-up </li>
  
№ 1 PCR of the S.mutans. Number 2 plate (grown from single colony). Genome isolated by Instagene Matrix
+
<h3>08.07.2015</h3>
DNA = 15 ul
+
<p>1. Sequential Digest of Pveg with SpeI (sib enzyme) and EcoRI (fermentas)<br>
Primer Forward = 5 ul
+
Result: Pveg of size 237 bp was seen on an agarose gel</p>
Primer Reverse = 5 ul
+
Master Mix = 25 ul
+
  
2 PCR of the S.mutans ( colony taken from Namber 2 plate)
+
<h3>9.07.2015</h3>
DNA = 15 ul
+
<p>1. Transformations:
Primer Forward = 5 ul
+
<ol><li>FixK2+rbs</li>
Primer Reverse = 5 ul
+
<li>GFP</li>
Master Mix = 25 ul
+
<li>Anderson promoter 101</li>
 +
<li>Anderson promoter 106</li>
 +
<li>Anderson promoter 117</li>
 +
2. Digest of the RFP mcherry + double terminator with Invitrogen EcoRI and XbaI<br>
 +
3. Gel extraction of the Pveg that was sequentially digested with SpeI (syberian enzyme) and EcoRI (fermentas):<br>
 +
Pveg = 30.78 ng/ul<br>
 +
mcherryRFP + double terminator (digested with EX from Invitrogen) = 9.36 ng/ul<br>
 +
4. Ligation of Pveg+ mcherryRFP with double terminator</p>
  
 +
<h3>10.07.2015</h3>
 +
<p>1. Checking Ligation of Pveg+FixJ mini prep product by making sequential digest with SpeI (Syberian enzyme) and EcoRI (fermentas)<br>
 +
2. Single digest of Pveg+FixJ with the EcoRI (Neb enzyme)<br>
 +
3. Transformation <br></p>
 +
<h3>5.08.2015</h3>
 +
<p>1.PCR of:
 +
<ul><li>GFP</li>
 +
<li>Anderson promoter 101</li>
 +
<li>Anderson promoter 106</li>
 +
<li>Anderson promoter 117</li>
 +
<li>plasmid backbone</li>
 +
<li>sgRNA for VicK</li></ul></p>
 +
<h3>6.08.2015</h3>
 +
<p>1. CPEC of sgRNA for VicK and plasmid backbone.<br>
 +
2. miniprep of pet21 plasmid from S.mutans<br>
 +
3. restriction digest and ligation of GFP with each Anderson promoter</p>
 +
<h3>7.08.2015</h3>
 +
<p>1. PCR of ligation products of GFP with Anderson promoters</p>
 +
<h3>8.08.2015</h3>
 +
<p>1. CPEC of GFP+Anderson promoter 101  with plasmid backbone</p>
 +
<h3>9.08.2015</h3>
 +
<p>1. minipreps of pet21+sgRNA(Vick) and sgRNA(VicK) in a plasmid backbone<br>
 +
2. PCR of pVeg and FixJ<br>
 +
3. Restriction digest of pVeg and FixJ<br>
 +
4. Ligation of pVeg and FixJ</p>
 +
<h3>10.08.2015</h3>
 +
<p>1. CPEC of GFP+Anderson promoters 106 and 117 with plasmid backbone<br>
 +
2. PCR of parts:
 +
<ul><li>TetR+dt+pTet</li>
 +
<li>pVeg+FixJ</li></ul></p>
 +
<h3>12.08.2015</h3>
 +
<p>1. Transformation of GFP+Anderson promoters in plasmid backbone</p>
 +
<h3>17.08.2015</h3>
 +
<p>
 +
1. Vector pMSP3535 for Nisin controlled expression for Gram-Positive bacteria kindly provided by Dr.Gary Dunny's Lab. <br>
 +
2.                     Restriction digest of sgVicK <br>
 +
• SgVicK = 6.3 ul <br>
 +
• 3.1 NEB buffer = 5 ul <br>
 +
• PstI (Neb) = 1 ul <br>
 +
• XbaI = 1 ul <br>
 +
• S.H2O = 36.7 ul <br>
 +
3.                 Restriction digest of XrpA <br>
 +
• xrpA = 4 ul <br>
 +
• 3.1 buffer = 5 ul <br>
 +
• PstI = 1 ul <br>
 +
• XbaI = 1 ul <br>
 +
• s.water = 39 ul <br>
 +
4.                 Restriction digest of pMSP3535 <br>
 +
• pMSP3535= 4 ul <br>
 +
• 3.1 buffer = 5 ul <br>
 +
• PstI = 1 ul <br>
 +
• XbaI = 1 ul <br>
 +
• s.water = 39 ul <br>
 +
5.               Ligation of pMSP3535 + XrpA <br>
 +
• xrpA (after gel extract) = 1 ul <br>
 +
• vector = 5.2 ul <br>
 +
• T4 buffer = 1 ul <br>
 +
• T4 ligase = 0.5 ul NEB <br>
 +
• S.water = 2.3 ul <br>
 +
6.                       Ligation of pMSP3535 + sgVicK <br>
 +
• sgVicK = 1 ul <br>
 +
• vector = 1.5 ul <br>
 +
• T4 buffer = 1 ul <br>
 +
• T4 ligase = 0.5 ul <br>
 +
• s.water = 6 ul <br>
 +
Results: Ligation was done overnight. After that, transformation was done. Colonies were screened and successful incorporation can be seen from figure<br>
 +
<center><img src="https://static.igem.org/mediawiki/2015/f/f5/NU_Kazakhstan.young_people_protocol.jpg" style="width:50%" ></center>
 +
<br>
  
 +
Figure 1. Mini prep products cut with PstI and XbaI. First line is ladder, 2,3,4 lines are xrpA incorporated into pMSP3535, 5 line is sgVicK incorporated into pMSP3535. </br>
 +
Size of pMSP3535 is 8354 base pairs, xrpA under pH sensitive promoter is 475 base pairs, and sgVicK is 275 base pairs<br>
 +
<h3>sgRNA for VicK construction</h3>
 +
<p>1. sgVicK gene was synthesized at TechnoPark of Nazarbayev University and size is 275 base pairs. sgVicK gene was received in pGEM-T Easy Vector with ampicillin resistance. Mini - prep was done and concentration was measured with Nanodrop. <br>
 +
2. sgRNA for VicK gene was amplified with Prefix-F and Suffix-R primers. After that sgRNA for VicK gene was pcr purified using  QIAquick PCR Purification Kit<br>
 +
3. Circular polymerase extension cloning (CPEC) method was used for incorporation of sgVicK into chloramphenicol linearized plasmid backbone, pSB1C3<br>
  
 +
          <h4> Reaction set up for CPEC</h4>
  
Results:  The amplicon of the size 479 base pair is detected. First raw is the ladder, second is the amplicon which was PCR-ed with extension time 1 min, third is the amplicon with extension time with 14 seconds.  
+
1.Linearized plasmid backbone – 200ng <br>
 +
2.sgVicK PCR purified product – equimolar to backbone <br>
  
№3 Negative control with the Bacillus Subtilis genome. Genome of the Bacillus was extracted with Instagene matrix
+
3.High Fidelity Master Mix – 10 ul <br>
  
 +
4.DMSO – 0.75 ul <br>
  
 +
5.Sterile water to 25 ul  <br>
  
 +
      PCR program for CPEC:
 +
<br>
 +
1. 98°C = 30sec<br>
  
 +
2. 98°C = 10 sec<br>
  
26.06.2015
+
3. 55°C = 30 sec <br>
  
30.06.2015
+
4. 72°C = 70 sec<br>
  
№1 Transformation of the FixK2 ( Kit 2015, Plate 1, 19G)
+
5. 15X <br>
  
№2 Restriction digest of the FixJ with the EcoRI and XbaI 
+
6. 72°C = 10 min <br>
  
DNA = 1000ng/124.5ng/ul = 8 ul
+
7. 4°C  <br>
EcoRI = 1 ul
+
XbaI = 1 ul
+
Cut Smart = 5 ul
+
Sterile Water = 35 ul
+
  
Second raw after ladder is FixJ (already cut for gel extraction )
+
4. 5 ul of CPEC reaction was transformed into dh5alpha strain of E.coli.
  
 +
Next day, one colony was put into mini- prep and concentration was
  
№3 Restriction Digest of the Pveg with EcoRI and SpeI
+
measured with Nanodrop. Mini-prep product of pSB1C3 + sgVicK was
  
DNA = 1000 ng/42.20ng/ul = 24 ul
+
cut with NotI restriction enzyme. Also, mini prep product was amplified
EcoRI = 1 ul
+
SpeI = 1 ul
+
Cut Smart = 5 ul
+
Sterile Water = 19 ul
+
  
 +
with Prefix-F and Suffix-R primers. <br>
  
          №4 Gel extraction of the FixJ and Pveg
+
Results: Second line is pcr product of mini prep and there is a band on
FixJ = 2.217 ng/ul
+
Pveg =2.892 ng/ul
+
+
№5 Ligation was performed in two ways.
+
DNA was taken from gel extraction
+
Pveg= 9 ul
+
FixJ = 8 ul
+
T4 -ligase = 1 ul
+
T4 -buffer = 2 ul
+
2. DNA was taken directly from digestion solution without clean up
+
Pveg = 8.5 ul
+
FixJ = 8.5 ul
+
T4 ligase= 1 ul
+
T4 buffer= 2 ul
+
  
 +
275 base pairs according to size of sgVicK. Third line is mini prep
  
07/07/15
+
product cut with NotI and there is a band of 275 base pairs. These
Activity № 1
+
 
+
 
+
 
+
 
+
 
+
Results: Digest = sequential (1 line): 250 bp = Fixk2
+
PCR gradient: 4-11 line, 580 bp cmv promoter, actual size = 900 bp, digest of cmv was successful but ,  pcr shows that primers are impaired, since Master Mix and water were new and clean, dna was the same as for digest.
+
 
+
 
+
 
+
 
+
 
+
 
+
8.07.2015
+
 
+
Activity № 1. Sequential Digest of the Pveg with SpeI (sib enzyme) and EcoRI (fermentas)
+
Pveg = 12.5 ul
+
SpeI (sib) = 1 ul
+
BSA = 0.5 ul
+
Seb buffer = 5 ul
+
Sterile water = 31 ul
+
                        Incubation for 2 hours at 37 degree C
+
+ NaCl = 1 ul (5 M)
+
+BSA (0.5 ul)
+
+1 ul EcoRI (Fermentas)
+
 
+
Results: Pveg of the size 237 base pair was seen on the agarose gel
+
 
+
 
+
 
+
 
+
9.07.2015
+
 
+
Activity №1. Transformation
+
FixK2+rbs
+
Cmv+neomycin
+
GFP
+
Anderson promoter
+
Anderson promoter
+
Anderson promoter
+
 
+
Activity № 2. Digest of the RFP mcherry+ double terminator with Invitrogen EcoRI and XbaI
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
 
+
Results: The second line shows that there are two bands that are located  very close to each other. This result suggests that upper band is the uncut plasmid, while the lower band is the one that was successfully digested. However, there is still doubt is it cut with one enzyme or both?
+
 
+
 
+
 
+
 
+
 
+
Activity № 3. Gel extract of the Pveg that was sequentially digested with SpeI (sib enzyme) and EcoRI (fermentas)
+
 
+
Pveg = 30.78 ng/ul
+
 
+
mcherryRFP + double terminator (digested with EX from Invitrogen) = 9.36 ng/ul
+
 
+
 
+
 
+
 
+
Activity № 4. Ligation of the Pveg+ mcherryRFP with double terminator
+
 
+
10x T4 DNA Ligase Buffer = 2 ul
+
T4-ligase = 1 ul
+
Pveg = 150 ng/30ng/ul = 4.87 ul
+
RFP = 50 ng/9.36 ng/ul = 5.34 ul
+
Sterile water = 6.79 ul
+
 
+
 
+
 
+
10.07.2015
+
 
+
Activity № 1. Checking of the Ligation of the Pveg+FixJ mini prep product by making sequential digest with SpeI (Sib enzyme) and EcoRI (fermentas)
+
 
+
 
+
Results: There are two bands. One is the 2500 bp. Another is 2000 base pair. However, if Pveg+ FixJ ligation have worked there would be also uncut plasmid after digestion of size 4500. So, it was decided to make single digest with EcorI in order to check if there would be a liniarized plasmid of 4500 base pair size.
+
 
+
Activity №2. Single digest of the Pveg+FixJ with the EcoRI (Neb enzyme)
+
 
+
DNA= 1000 ng/94.69 ng/ul = 10.56 ul
+
Cut smart = 5 ul
+
EcoRI = 1 ul
+
Sterile water = 33.44 ul
+
Overall: 50 ul
+
 
+
 
+
+
  
Results: First raw is  ladder, second is plasmid after ligation of Pveg+FixJ, third is Pveg+FixJ plasmid cut with EcoRI. The results shows that there is no linearized plasmid with the 4500 base pair after ligation. So ligation did not work.
+
results indicate that sgVicK gene successfully incorporated into
  
Activity №3. Transformation
+
chloramphenicol resistant plasmid backbone<br>
 +
<center><img src="https://static.igem.org/mediawiki/2015/7/7a/NU_111.jpg" style="width:50%"></center>
  
Double Terminator =2014 Kit, plate 1, 3D, chloromphenicol
+
Figure 1. First line is ladder, second is pcr amplified product of sgVicK
RBS = 2014 Kit, plate 4, 4G, chloromphanicol
+
Pveg= 2014 Kit, plate 1, 20G, chloromphenicol
+
Ligation product= Pveg + mcherry RFP (cut was done by EX of Invitrogen)
+
  
 +
(275 bp), mini prep product digested with NotI
 
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Latest revision as of 00:23, 19 September 2015

Nazarbayev University Team

Notebook

1.06.15

  1. Preparation of the LB agar
    We used 37 g of nutrient agar for 400 mL of distilled water
  2. Extraction of genome from S.mutans
    1. First, culture S.mutans in 5 mL liquid BHI + bacitracin
    2. Centrifuge for 15 min at 4000 rpm
    3. Then dissolve the pellet in 500 microliters of Lysis Buffer
      How to prepare Lysis Buffer (1 mL):
      Lysis Buffer contains EDTA, Tween 80%, tris HCl,125 microliters of 8 M EDTA,5 µl of Tween 80, Tris HCl 1M 50 µl, Proteinase K (200 µg/mL). 0.0002 grams of powder Proteinase K were put into 1 mL of Lysis Buffer. The balance could not read 0.0002 g of proteinase K, so 0.02 g of proteinase K were taken.
  3. Incubation for 2 hours at 55°C. Heat at 90°C for 5 minutes.
  4. Then add equal volume of cold isopropyl alcohol.
  5. Incubate in freezer for 20 minutes.
  6. Centrifuge at the maximum speed for 30 min. Remove the supernatant.
  7. Add enough amount of ethanol to the pellet in order to wash
  8. Then add 50 µl of TE buffer
  9. Add 0.5 µl of the RNAase
  10. Incubate at 37°C for 1 hour
  11. Inactivate at 60°C for 10 min
  12. Run it in an agarose gel

  13. 2.06.15

    1. Construction of the light system
      pFixK2(K592006) + rbs + tetR(C0040) + double terminator + Ptet(R0040) + rbs + RFP(J06505) + double terminator
      • [rbs] = 139.15 ng/µl
      • [Ptet + GFP] = 199.2 ng/µl
      • [pFixK2] = 131.6 ng/µl
      • [double terminator] = 70.21 ng/µl
      • [tetR] = 78.76 ng/µl
    2. Restriction digests:
      Protocol for Restriction digest:
      Take following amounts of reagents:
      -1000 ng of DNA
      -0.5 µl of each Restriction Enzyme(we used NEB enzymes)
      -5 µl of CutSmart Buffer
      -dH2O to get final volume of 50 µl
      Incubate this mixture at 37 C for 1-2 hours and heat inactivate for 20 min at the temperature needed for particular enzyme.
      Example mixture:
      -pFixK2 (250 bp) was cut with EcoRI and SpeI.
      • pFixK2 – 7.6 µl
      • EcoRI = 0.5 µl
      • SpeI = 0.5 µl
      • dH2O = 36.4 µl
      • cut smart = 5 µl
      • Overall: 50 µl

      -RBS (15 bp) was cut with .
      -TetR (685 bp) was cut with EcoRI and SpeI.
      -Double terminator (95 bp) was cut with XbaI.
    3. Gel extraction of the pFixK2, RBS, tetR and double terminator
      1. Invitrogen by Life Technologies PureLink Quick Gel Extraction Kit was used to purify DNA.
      2. The small area of the gel containing the DNA fragment of interest was cut under UV.
      3. Mass of FixK2 = 220 mg, RBS = 80 mg, tetR = 150 mg, dTer = 140 mg
      4. The protocol of the PureLink Quick Gel Extraction was used to dissolve the gel and extract the DNA
        • [FixK2] = 5.727 ng/µl
        • [Rbs] = 4.499 ng/µl
        • [tetR] = 5.216 ng/µl
        • [double terminator] = 2.694 ng/µl
      5. Ligation of the Parts:
        Protocol for Ligation:
        -Take 50 ng of vector or just of bigger DNA part
        -Take amount of smaller DNA part to have 1:3 molar ratio
        -1 µl of T4 ligase enzyme
        -2 µl of T4 buffer
        -Add dH2O to have final volume of 20 µl
        Incubate this mixture for 16 hours at 16 C and heat inactivate for 10 min at 65 C.
        Example Ligation mixture:
        -Ligation of pFixK2 + rbs
        • pFixK2 = 8.5 µl
        • RBS = 8.5 µl
        • T4 ligase = 1 µl
        • T4 buffer = 2 µl
        • Overall: 20 µl

        -Ligation of TetR + double terminator
        When ligated DNA was transformed, the plate with pFixK2 + RBS had colonies grown. The mini-prep of pFixK2 + rbs was done
      6. 3.06.15

        1. The concentrations of the transformed parts:
          • FixK2+ rbs= 75.79 ng/µl
          • FixK2+ rbs= = 72.80 ng/µl
          • TetR + dter= 56. 93 ng/µl
          • TetR + dter= 95.86ng/µl
          • Pveg= 84.84 ng/µl
          • FixJ= 161.1 ng/µl
        2. PCR (Thermo Scientific Phusion High Fidelity PCR Master-mix):
          Protocol for PCR reaction:
          Take following reagents:
          -10 ng of DNA
          -10 µl of PCR MasterMix
          -2 µl of each 5 µM Primer
          -Add dH2O to get final volume of 20 µl
          Example PCR mixture:
          -PCR of FixK2
          • DNA = 0.03 µl *10 reactions = 0.3 µl
          • Water = 5.97 µl= 59.7 µl
          • Master Mix = 10 µl= 100 µl
          • VF2 = 2µl = 20 µl
          • VR= 2 µl = 20 µl
            • -PCR of RBS
              -PCR of FixK2 + rbs
              -PCR of tetR+dter
              -PCR of tetR
              -PCR of Double terminator
              Result:
              -The ligation of the FixK2+ rbs did not work
              -The ligation of the tetR+ dter worked
            • Restriction Digests of:
              -tetR
              -Double terminator

        4.06.15

        1. PCR of the ligated parts after transformation and mini-prep:
          -PCR of [FixK2+rbs+tetR] = 108.54 ng/µl
          -PCR of [tetR+ double terminator] = 166 ng/µl
        2. Running of PCR products on a gel in the following order:
          1. Ladder
          2. FixK2+ RBS
          3. FixK2+ rbs+tetR
          4. TetR
          5. tetR+ dter

        5.06.15

        Protocol for making the competent dh5alpha

        1. Inoculate a single colony into 5 mL LB in 50 mL falcon tube (taped on a loosed tap)
        2. Grow on 37°C with shaking for 130 rpm overnight
        3. Use 1 mL to inoculate 100 mL to inoculate 100 mL of LB in 250 mL bottle the next morning
        4. Shake 37°C for 1.5-3 hours
        5. When OD is between 0.3-0.4 put cell on ICE
        6. Hold cells on ice for the 10 minutes
        7. Collect cells by centrifugation for 3 min at maximum speed (4700 rpm)
        8. Decant supernatant and gently resuspend on 10 mL ice-cold 0.1 M CaCl2 (prepared in ddH2O). Treat them gently.
        9. Incubate on ice for 20 minutes.
        10. Centrifuge again at maximum speed (4700 rpm)
        11. Discard supernatant and gently resuspend in 5 mL cold 0.1 M CaCl2 (15% glycerol)
        12. Dispence into chilled microtubes, put on the dry ice. Perform this procedure very quickly!
        13. Freeze in -80°C

        6.06.15

        1. PCR clean-up of:
          -[FixK2+rbs] = 30.15 ng/µl
          -[tetR] = 57.47 ng/
        2. Gel extraction after digestion:
          -[FixK2 + rbs] = 5.862 ng/µl
          -[tetR] = 4.621 ng/µl
        3. Ligation with Fermentas enzymes:
          -[tetR] = 20/4.621ng/µl = 4.3 µl + [FixK2+ rbs] = 40ng/5.862 ng/µl = 7 µl
          -[tetR]=4 ng/µl + [double terminator]=2ng/µl
          -TetR + double terminator
          -Pveg + FixJ
        4. Ligation with NEB enzymes:
          -Pveg + FixJ
          -FixK+ rbs+tetR
          -[FixK2 + rbs]=10.66 ng/µl + [tetR]=23.08ng/µl
          -TetR+double terminator
        Results: Ligation of tetR + double terminator (NEB) 50 ng: 50 ng have worked.

        8.06.15

        Transformation of Ligated products:

        • Pveg + FixJ
        • tetR+ double terminator
        • FixK2+rbs+tetR
        • FixK2+rbs+tetR (PCR)
        • FixK2+rbs+tetR
        • FixK2+tetR+ double terminator
        • tetR+ double terminator

        9.06.15

        PCR after ligation:
        -tetR+ double terminator
        -FixK2+rbs+ tetR
        -Pveg + FixJ
        -FixK2+rbs+tetR
        -tetR+ double terminator
        -tetR+ double terminator (fermentas)
        Results: Only ligation of the tetR + double terminator with NEB enzyme have worked

        10.06.15

        Restriction Digest:
        -FixK2+ rbs
        -TetR + double terminator

        11.06.15

        1.Gel extracts of:
        [Pveg ] = 3.174 ng/µl
        [FixJ] = 2.9045 ng/µl
        2.Ligation of Pveg + FixJ

        12.06.15

        PCR of S.mutans 16s rRNA with synthesized primers
        Figure 1: There were two types of colonies growing on bacitracin selective plate. They are expected to be S. mutans and S.sobrinus. It was suggested that Sm479F/R primer pair is highly specific for identification of S.mutans(Chen et al.,2007). In the picture you see two sets of lanes corresponding to the two types of colonies from plate, and first set of lanes is of correct size.

        14.06.15

        1.Digest of the Pet 21(plasmid) with NotI
        2.Digest of the GFP with NotI
        3.Ligation of Pveg with FixJ
        4.Digest of FixK2+rbs with SpeI (NEB)
        5.Digest of FixK2+rbs with Aah1 (Syberian Enzyme)
        Results: The size of FixK2+rbs (265 bp) does not coincide with the gel

        15.06.15

        1.Transformation of parts from Kit 2014:

        • Promoter FixK2 (Plate 1, 19G) – 250 bp
        • RBS (Plate 4, 4G) – 15 bp
        • FixJ (Plate 1, 10N) – 1796 bp
        • RFP mCherry with double terminator (Plate 1, 13K) = 861 bp
        • Promoter Veg (plate1, 20G) = 237 bp
        2.Genome extraction from S.mutans with Instagene Matrix
        3.PCR of 16S rRNA of the S.mutans

        16.06.2015

        1.Mini-prep:

        1. pFixK2 = 78.03 ng/µl
        2. Rbs = 171.8 ng/µl
        3. FixJ = 124.5 ng/µl
        4. Rfp + double terminator = 82.75 ng/µl
        5. Promoter Veg = 42.20 ng/µl
        2.Double Digest of FixK2 with SpeI and EcoRI
        3.Single digest of FixK2 with SpeI
        4.Double Digest of RBS with EcoRI and XbaI

        17.06.2015

        Gel extraction of FixK2 and rbs
        -FixK2 (double digest) = 4.128 ng/µl
        -FixK2 (single digest) = 3.315 ng/µl
        -Rbs = 3.051 ng/µl
        2.Ligation of FixK2 (double digested) + rbs
        3.Ligation of FixK2(single digested) + rbs in order to obtain linear plasmid
        4.Double digest of:
        -Pveg (EcorI-SpeI)
        -FixJ (EcorI-XbaI)
        -RFP (EcorI - XbaI)
        5.Transformation of Fixk2 + rbs.

        18.06.2015

        1.Double check Transformation of [Fixk2 + rbs]
        We did not simultaneously perform digest and ligation since we wanted to check the work of enzymes in double digest
        2.Gel extraction of parts: Pveg, FixJ, RFP
        3.Ligation reaction:
        -Pveg + FixJ
        -Pveg +RFP
        4.Chrm and Bacitracin plates were done (Bacitracin Mol. weight is 1422.71 g/mol and the concentration in stock (ex: 500 ml LB agar) should be 0.2 µM, while the conc. of bacitracin is 50 mg/ml):
        (50 mg/ml)/ 1422. 71 = 0.035 M in eppendorf tube
        0.035 M x Y= 0.2 µM x 500 ml
        Y = 0.00286 ml = 2. 86 µl
        Chrm conc: 500 µl for 500 ml of LB agar
        5. Miniprep of Fixk2+rbs: [FixK2+ rbs] = 217.7 ng/µl

        19.06.2015

        1. Transformations of parts:
          1. dCas9 under xylose (2015 Kit, plate=5, 8L) chloromphenicol resistant
          2. Anderson promoter (plate 1, 20 K) chloromphenicol resistant
          3. Anderson promoter (plate1, 22A)
          4. Anderson promoter (plate 1, 22 K)
          5. GFP (plate 4, 21J)
          6. Pveg+ FixJ
          7. Pveg+ RFP
          8. Pveg+ FixJ (20 µl)
          9. Pveg + RFP (20 µl )
        2. PCR confirmation of the Fixk2+rbs ligation part obtained from miniprep
          1. ladder
          2. FixK2
          3. FixK2 + rbs
          4. FixK2 + rbs
          Results: Size of FixK2, FixK2 + rbs do not coincide with the right one.
        3. Genome extraction from S.mutans by Instagene Genome Extraction and PCR
          RESULTS:
          S.Mutans = No band amplification
          FixK2 = 600 bp part was shown as amplified

        25.06.2015

        1. PCR of S.mutans. Plate #2 (grown from single colony). Genome isolated by Instagene Matrix
        2. PCR of S.mutans (colony taken from plate #2)
        3. Negative control with the Bacillus Subtilis genome. Genome of the Bacillus was extracted with Instagene matrix
        Results: The amplicon of size 479 base pair is detected. First raw is the ladder, second is the amplicon which was PCR-ed with extension time 1 min, third is the amplicon with extension time of 14 seconds.

        30.06.2015

        1. Transformation of FixK2 ( Kit 2015, Plate 1, 19G)
        2. Restriction digest of FixJ with EcoRI and XbaI
        3. Restriction Digest of Pveg with EcoRI and SpeI
        4. Gel extraction of the FixJ and Pveg
          FixJ = 2.217 ng/ul
          Pveg =2.892 ng/ul
        5. Ligation was performed in two ways:
          -DNA was taken from gel extraction
          -DNA was taken directly from digestion solution without clean-up
        6. 08.07.2015

          1. Sequential Digest of Pveg with SpeI (sib enzyme) and EcoRI (fermentas)
          Result: Pveg of size 237 bp was seen on an agarose gel

          9.07.2015

          1. Transformations:

          1. FixK2+rbs
          2. GFP
          3. Anderson promoter 101
          4. Anderson promoter 106
          5. Anderson promoter 117
          6. 2. Digest of the RFP mcherry + double terminator with Invitrogen EcoRI and XbaI
            3. Gel extraction of the Pveg that was sequentially digested with SpeI (syberian enzyme) and EcoRI (fermentas):
            Pveg = 30.78 ng/ul
            mcherryRFP + double terminator (digested with EX from Invitrogen) = 9.36 ng/ul
            4. Ligation of Pveg+ mcherryRFP with double terminator

            10.07.2015

            1. Checking Ligation of Pveg+FixJ mini prep product by making sequential digest with SpeI (Syberian enzyme) and EcoRI (fermentas)
            2. Single digest of Pveg+FixJ with the EcoRI (Neb enzyme)
            3. Transformation

            5.08.2015

            1.PCR of:

            • GFP
            • Anderson promoter 101
            • Anderson promoter 106
            • Anderson promoter 117
            • plasmid backbone
            • sgRNA for VicK

            6.08.2015

            1. CPEC of sgRNA for VicK and plasmid backbone.
            2. miniprep of pet21 plasmid from S.mutans
            3. restriction digest and ligation of GFP with each Anderson promoter

            7.08.2015

            1. PCR of ligation products of GFP with Anderson promoters

            8.08.2015

            1. CPEC of GFP+Anderson promoter 101 with plasmid backbone

            9.08.2015

            1. minipreps of pet21+sgRNA(Vick) and sgRNA(VicK) in a plasmid backbone
            2. PCR of pVeg and FixJ
            3. Restriction digest of pVeg and FixJ
            4. Ligation of pVeg and FixJ

            10.08.2015

            1. CPEC of GFP+Anderson promoters 106 and 117 with plasmid backbone
            2. PCR of parts:

            • TetR+dt+pTet
            • pVeg+FixJ

            12.08.2015

            1. Transformation of GFP+Anderson promoters in plasmid backbone

            17.08.2015

            1. Vector pMSP3535 for Nisin controlled expression for Gram-Positive bacteria kindly provided by Dr.Gary Dunny's Lab.
            2. Restriction digest of sgVicK
            • SgVicK = 6.3 ul
            • 3.1 NEB buffer = 5 ul
            • PstI (Neb) = 1 ul
            • XbaI = 1 ul
            • S.H2O = 36.7 ul
            3. Restriction digest of XrpA
            • xrpA = 4 ul
            • 3.1 buffer = 5 ul
            • PstI = 1 ul
            • XbaI = 1 ul
            • s.water = 39 ul
            4. Restriction digest of pMSP3535
            • pMSP3535= 4 ul
            • 3.1 buffer = 5 ul
            • PstI = 1 ul
            • XbaI = 1 ul
            • s.water = 39 ul
            5. Ligation of pMSP3535 + XrpA
            • xrpA (after gel extract) = 1 ul
            • vector = 5.2 ul
            • T4 buffer = 1 ul
            • T4 ligase = 0.5 ul NEB
            • S.water = 2.3 ul
            6. Ligation of pMSP3535 + sgVicK
            • sgVicK = 1 ul
            • vector = 1.5 ul
            • T4 buffer = 1 ul
            • T4 ligase = 0.5 ul
            • s.water = 6 ul
            Results: Ligation was done overnight. After that, transformation was done. Colonies were screened and successful incorporation can be seen from figure


            Figure 1. Mini prep products cut with PstI and XbaI. First line is ladder, 2,3,4 lines are xrpA incorporated into pMSP3535, 5 line is sgVicK incorporated into pMSP3535.
            Size of pMSP3535 is 8354 base pairs, xrpA under pH sensitive promoter is 475 base pairs, and sgVicK is 275 base pairs

            sgRNA for VicK construction

            1. sgVicK gene was synthesized at TechnoPark of Nazarbayev University and size is 275 base pairs. sgVicK gene was received in pGEM-T Easy Vector with ampicillin resistance. Mini - prep was done and concentration was measured with Nanodrop.
            2. sgRNA for VicK gene was amplified with Prefix-F and Suffix-R primers. After that sgRNA for VicK gene was pcr purified using QIAquick PCR Purification Kit
            3. Circular polymerase extension cloning (CPEC) method was used for incorporation of sgVicK into chloramphenicol linearized plasmid backbone, pSB1C3

            Reaction set up for CPEC

            1.Linearized plasmid backbone – 200ng
            2.sgVicK PCR purified product – equimolar to backbone
            3.High Fidelity Master Mix – 10 ul
            4.DMSO – 0.75 ul
            5.Sterile water to 25 ul
            PCR program for CPEC:
            1. 98°C = 30sec
            2. 98°C = 10 sec
            3. 55°C = 30 sec
            4. 72°C = 70 sec
            5. 15X
            6. 72°C = 10 min
            7. 4°C
            4. 5 ul of CPEC reaction was transformed into dh5alpha strain of E.coli. Next day, one colony was put into mini- prep and concentration was measured with Nanodrop. Mini-prep product of pSB1C3 + sgVicK was cut with NotI restriction enzyme. Also, mini prep product was amplified with Prefix-F and Suffix-R primers.
            Results: Second line is pcr product of mini prep and there is a band on 275 base pairs according to size of sgVicK. Third line is mini prep product cut with NotI and there is a band of 275 base pairs. These results indicate that sgVicK gene successfully incorporated into chloramphenicol resistant plasmid backbone
            Figure 1. First line is ladder, second is pcr amplified product of sgVicK (275 bp), mini prep product digested with NotI