Team:Illinois/sRNA Library

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sRNA Library Team

Goals: Our team will be characterizing various small RNAs and submitting them to the Parts Registry as working biobricks. We will insert the sRNA gene into a high-copy plasmid and its target sequence before the GFP gene in a low-copy plasmid. We will then transform both plasmids into E. coli cells. The sRNA should successfully repress expression of the GFP gene and result in a decrease in fluorescence. We will be using a protocol documented in a paper by Urban and Vogel (please see the Protocols page).


Note: Our team split into four groups at the beginning of the summer and each team worked to get an sRNA working from the following: MicF, MicC, MicA, and SgrS. After the first week of lab work, our team split to work on things other than sRNA characterization, and the work done was resumed by the new sRNA Library team.


Click on a link below to view information pertaining to a specific sRNA, including gene sequences and primers used (early notebook entries are also included).

June 15

Each of the four sRNA groups ran two PCR reactions: one to synthesize their sRNA gene and one to synthesize the target sequence of the sRNA.

We ran a PCR for plasmid pJU-334 and ran a gel on the reaction. For some reason, the gel had a band at ~1.9kbp, rather than at 3.1kbp, where we expected the plasmid to be.

Illinois- Gel 1 of PCR of pJU-334.jpg

June 16

All four groups ran gels on their PCR reactions to verify that the appropriate DNA fragments had been synthesized. All PCR reactions except for the MicC gene were successful.

UI09Gel2.jpg

UI09Gel1.jpg

We ran a PCR on plasmid pJU-334 and ran a gel. The gel indicated a band at ~11kbp rather than at 3.1kbp, where the plasmid is expected to fall.

Illinois- Gel 2 of PCR of pJU-334.jpg

June 17

The four groups successfully added restriction endonucleases to their synthesized DNA and purified it by gel electrophoresis. The MicC gene was synthesized by PCR and verified to be successful by gel electrophoresis.

UI09MicCGel.jpg

We performed a PCR on the pJU-334 plasmid and ran a gel, which indicated a faint band at ~3.1kbp (the expected size of the plasmid) and a strong band at ~1.9kbp.

Illinois- Gel 3 of pJU-334.jpg

June 18

We attempted another PCR of plasmid pJU-334 and ran a gel on it, using all 45 μL of the reaction. We detected a faint band at ~3.1kbp (the expected size of the plasmid) and a strong band at ~1.9kbp. We purified the ~3.1kbp band and ran another PCR on the purified DNA.

Illinois- Gel 4 of pJU-334.jpg

June 19

We found out that we ordered one of the wrong primers for plasmid pJU-334. We will have to order the correct primer and PCR our plasmids before we can continue.

June 30

We started creating primers for 5 new sRNA's and each of their respective target sequences:


sRNA's / target sequences

  dicF  /  ftsZ
  dsrA  /  hns
  rhyB  /  sodB
  spot42/  galK
  rseX  /  ompC and ompA
  gcvB  /  dppa and oppa

We PCR'ed all of the genes listed above except for ompC and ompA, and we obtained bands for each of the target sequences. However, for the sRNA's, we only obtained bands for gcvB and dicF.

July 1

We re-did the PCR's, of the four sRNA's that didn't work. We also began a digestion of the two sRNA's and each of their target sequences.

The gel we ran after the PCR showed no bands. The gel we ran after the digestions showed strong bands, and we performed a gel extraction to purify the products. However the DNA concentrations we obtained from using the nanodrop were unusable.

July 2

We once again re-did the PCR's of dicF, gcvB, dppA, oppA, and ftsZ. There was no more TBE buffer so the gel of the PCR products will be run after the weekend.

July 6

We performed another PCR of all of the new sRNA's, and we ran a gel with the 5 sRNA's from last week.



Lane 1 100bp ladder

    2    ftsZ
    3    ftsZ*
    4    oppA
    5    oppA*
    6    dppa
    7    dppa*
    8    hns
    9    galK
    10   sodB

Lane 1 100bp ladder

    2    dicF
    3    dicF*
    4    gcvB
    5    gcvB*
    6    rseX
    7    spot42
    8    ryhB
    9    dsrA
    

July 10

Hopefully now the ligation will be working. After many many attempts we got a decent looking gel! The resolution isnt very good. This was an attempt to fit both the insert and the vector on the same gel but that didn't work at all. Its 1% with a 1kbp ladder.

8laneligation roomtemp.png

The large, slow bands are hopefully the ligated plasmids. The ones just below that don't look like they worked. They look reasonably bright. Each lane is a variant of Insert:Vector ratio, ranging from 3:1 to 15:1 which were all ligated at room temperature for 4 hrs. (Protocol called for 1hr)

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