Add PolyT near Lac Promoter 070612
2014-08-29azim58 - Add PolyT near Lac Promoter 070612
Plan
The polyT site will be added by cutting with SfiI and NotI. The fragment
needs to be amplified with APT and RPTF primers. Then I need to reamplify
with APT2 and RPTF2 primers. Then I need to perform the In-Fusion
reaction with the plasmid backbone. This plasmid will need to be
transformed into some bacteria. Then this plasmid will need to be
sequenced with SAPTF and SAPTR.
I will use the Primestar Max DNA Polymerase.
===========================================================================
7-6-12
First I need to cut the vector with SfiI and NotI.
see Restriction Digest Protocol
Approximate size of expected fragment is about 1.6 kb
Plasmid is about 5 kb
Plasmid backbone is about 3.4 kb
The restriction digest worked just as expected.
Items
- pComb backbone 7-6-12 KW gel extracted
- pComb fragment 7-6-12 KW gel extracted
===========================================================================
7-7-12 Performed PCR and gel extracted
7-8-12 Performed PCR with shorter primers and gel extracted
7-9-12 Performed In-Fusion reaction
===========================================================================
Sequencing Results
L:\storage\CIM Research Folder\DR\2012\7-16-12
===========================================================================
Sequencing Results (2nd try)
L:\storage\CIM Research Folder\DR\2012\7-18-12\pcomb sequence analysis
Some Notes on analysis
- I realized that when I first looked at these results, I was not
I will look at this more.
L:\storage\CIM Research Folder\DR\2012\7-19-12\1507
Here's a screenshot showing that the forward and reverse sequences
match well without reverse complementing (these are the first
sequencing results from the last experiment to modify the NotI region)
"L:\storage\CIM Research Folder\DR\2012\7-19-12\1507\1515.png"
Now I will try taking the reverse complement and comparing the two.
clustal input:
"L:\storage\CIM Research Folder\DR\2012\7-19-12\1507\input 1522.txt"
clustal output
"L:\storage\CIM Research Folder\DR\2012\7-19-12\1507\1526.png"
When I take the reverse complement the sequences do not align well.
"L:\storage\CIM Research Folder\DR\2012\7-19-12\1507\1526.png"
This was very strange. Now I know what the problem was though after
some discussion with Andrey and Felicia. I was obtaining my sequences
from a dissolved contig in sequencher. I thought that when I dissolve a
contig that the sequence would be in the exact same format that it came
in from the sequencing lab. However, once a sequence has been included
into a contig in sequencher, the format of the sequence (forward or
reverse complement) is maintained, which I did not expect. Now that I
know this, I can test Clustal again. From what I understand so far, it
looks like Clustal requires proper reverse complemented sequences for
good alignments and the program will not do this on it's own.
1633 Now everything makes sense. Clustal does require sequences in the
proper format (forward or reverse complement from a reverse primer
sequence). When I reverse complement the original sequence from the
sequencing lab, everything aligns properly.
Now that I know that Clustal requires proper orientation sequences, I
can go back and look at my sequencing analysis for the 7-16-12
sequencing results.
These results were not ideal. This may be due to the fact that I did not
have a full 150 ng of plasmid. The in-fusion 1 reaction only had 85.5 ng
in the tube, and the in-fusion 2 reaction only had 135 ng in the tube.
===========================================================================
Sequencing Results (3rd try)
7-22-12 (Sun)(Sequencing lab will get it Mon morning 7-23-12)
Miniprepped more plasmid
Sequenced again. However, this time I used various concentrations of
primer (1/2X, 1X, and 2X).
The sequencing results did not turn out well.
The sequencing locations aren't where they should be. After looking at
these results with Andrey, we determined that the first modification to
modify the NotI region appeared to have worked well. However, the 2nd
modification to add the poly T near the Lac site did not appear to have
worked well. We found that the reverse In-Fusion primer was incorrect
since it excluded the poly Ts added during the 1st modification. The
reverse sequencing primer (SAPTR) was also incorrect. Once I order these
primers, and redo the in-fusion reaction, I may obtain the sequencing
results I expect.
Here's the sequencher file Andrey generated:
"L:\storage\CIM Research Folder\DR\2012\7-26-12\pcomb sequence
analysis\pcomb in-fusion model.SPF"
Some of my analysis can be found here.
note that TL1, TL2, and MN are 3 different plasmids. The TL1 and TL2
plasmids should be plasmids after the "MN" (modify NotI) and the "TL"
(add poly T near Lac promoter) modifications have been made. The MN
plasmid should just be a plasmid after the "MN" modification only.
alignment of TL1 at TL site (TL = add poly T near LacI)
"L:\storage\CIM Research Folder\DR\2012\7-26-12\pcomb sequence
analysis\alignment of TL1 TL site.txt"
sequences at totally wrong location
alignment at TL2 at MN site is not good enough to make anything out
because the sequences are too bad.
alignment of TL2 at TL site
"L:\storage\CIM Research Folder\DR\2012\7-26-12\pcomb sequence
analysis\alignment of TL2 TL site.txt"
sequences at totally wrong location
alignment of TL2 at MN site (MN = modify NotI site)
"L:\storage\CIM Research Folder\DR\2012\7-26-12\pcomb sequence
analysis\alignment of TL2 MN site.txt"
sequences at totally wrong location
alignment of MN at MN site
"L:\storage\CIM Research Folder\DR\2012\7-26-12\pcomb sequence
analysis\alignment of MN at MN site.txt"
the SRNotI sequence does align with the poly T region as expected.
alignment of MN at TL site indicates that the poly T was not introduced
just as expected.
"L:\storage\CIM Research Folder\DR\2012\7-26-12\pcomb sequence
analysis\alignment of MN at TL site.txt"
Now I need to order a new RPTF primer, RPTF2 primer, SAPTF, and SAPTR
primer since Andrey identified the mistakes in my current primers.
The planning document for these primers can be found here:
"L:\storage\CIM Research Folder\DR\2012\6-13-12\inserting polyT site
corrected.svg"
and here
"L:\storage\CIM Research Folder\DR\2012\7-29-12\pcomb\corrected primer
check 7-29-12.SPF"
The oligo order form can be found here
"L:\storage\CIM Research Folder\DR\2012\7-29-12\pcomb\Oligo Order Kurt
7-29-12.xls"
as well as here
"S:\Research\Cancer_Eradication\Discovering tumor specific antigens\Phage
Library\7-29-12 pcomb modifications"
===========================================================================
8-15-12
I made a combined oligo order form to order the primers for making these
phagemid pcomb modifications as well as for adding the poly T site to the
cDNA library directional SMARTer In-Fusion library vector (see Designing
primers to add poly T 8-5-12)
I combined the oligos from these two spreadsheets
Oligo Order Kurt 7-29-12 ("L:\storage\CIM Research
Folder\DR\2012\7-29-12\pcomb\Oligo Order Kurt 7-29-12.xls")
Adding poly T primers (L:\storage\CIM Research
Folder\DR\2012\8-15-12\adding poly T primers)
into this spreadsheet
Oligo Order Kurt 8-15-12.xls ("L:\storage\CIM Research
Folder\DR\2012\8-15-12\Oligo Order Form 8-15-12\Oligo Order Kurt
8-15-12.xls")
These oligos will be for modifying the phage pcomb plasmid
RPTFC
RPTFC2
SAPTFC
SAPTRC
RPTFCB
RPTFC2B
These oligos will be for modifying the directional SMARTer In-Fusion
library
Lin1
Lin2
ATNL1
ATNL2