Team:CU-Boulder/Notebook/Phage Team

From 2014.igem.org

Revision as of 18:29, 5 October 2014 by Leighla (Talk | contribs)


Contents

Week 1

Notes: Unless stated otherwise, all gels contain 2-log ladder

5/9

  • •Obtained BW23115 KanR cells- BW23115 cells that had their native CRISPR-Cas system knocked out by the insertion of a Kanamycin resistance gene
    • -Will also be called BW23115 orBW
    • -Conjugated BW23115 KanR cells with contain F’ notation (ex. BWF’)
  • •Obtained ER2738 cells that contain the F’ episome (no changes from NEB sample)
    • -Will also be called ER. Assume that all ER samples contain the F’ episome
    • -Streaked sample onto LB+Tet (20ug/mL) to select for colonies containing F’ episome

5/10

  • •Did receive colonies from 5/9 selection

•*Obtained BW23115 KanR cells- BW23115 cells that had their native CRISPR-Cas system knocked out by the insertion of a Kanamycin resistance gene

    • -Will also be called BW23115 or BW
    • -Conjugated BW23115 KanR cells with contain F’ notation (ex. BWF’)
    • -Obtained ER2738 cells that contain the F’ episome (no changes from NEB sample)
    • -Will also be called ER. Assume that all ER samples contain the F’ episome
    • -Streaked sample onto LB+Tet (20ug/mL) to select for colonies containing F’ episome

Week 2

5/12

  • •Need to conjugate BW23115 KanR cells with the F’ episome
    • -Set up overnight cultures of ER2738 and BW23115 KanR
    • -When mixed, ER2738 will donate it’s F’ episome and BW23115 KanR will receive the F’ episome. F’ episome confers Tetracycline resistance

5/13

  • •Started M13 Amplification: Amplify M13 phage using the M13K07 Helper Phage
    • -Let precipitated in NaCl/PEG solution overnight
    • -Possible sources of error
Did not sterilize 2.5M NaCl/20% PEG-8000 solution
Added 4-fold PEG solution
        • •Compensated by adding more LB
During precipitation, put sample in -20C for 30 minutes before realizing mistake and moving to it to 4C. Sample partially froze
  • •Conjugated BW23115 with F’ episome
    • -Added 1mL BW23115 to 1mL ER2738 overnight culture
    • -Incubated at 37C for 30 minutes, shaking
    • -Plated on LB+Kan(50ug/mL)+Tet(20ug/mL)
To select for BW cells that took the F’ episome (containing Tet resistance)

5/14

  • •Finished the M13 Amplification
    • -Visualized product on UV-vis. There was a tall spike at 269nm indicating that DNA was present. Did not test at 320nm.
  • •Results of BW23115 Conjugation
    • -Many colonies indicating successful conjugation of F’ episome into BW23115
    • -Set up overnight to make freeze down tomorrow
  • •Set up overnight of ER2738 to make chemically competent tomorrow

5/15

  • •Made freeze down of BW23115 KanR F’
    • -BW23115 E. coli strain with Kanamycin resistance gene inserted into genome and with F’ episome
  • •Made chemically competent ER2738 cells
  • •Transformation of Litmus28i (from NEB) into chemically competent ER2738 cells
    • -Added 1ul Litmus28i plasmid to 40ul competent cells
    • -Plated on LB + Amp(100ug/mL)
    • -Purpose: To make M13 phage that package Litmus28i DNA. Need phagemid (Litmus28i) DNA in infectable cells (cells containing F’ episome) to introduce M13K07 Helper Phage and make phage.

5/16

  • •Results of 5/15 transformation
    • -No growth for No DNA control
    • -Many colonies for sample


Week 3

5/19

  • •M13 Amplification to isolate M13-Litmus28i phage
    • -Cells: ER2738 cells containing Litmus28i phagemid
    • -Helper Phage: M13K07
    • -Not much phage was precipitated
  • •Set up overnight culture of ER2738 to infect tomorrow

5/20

  • •Infected ER2738 cells with M13-Litmus28i phage
    • -Plated only on Ampicillin(100ug/mL) (should have also plated on kanamycin)
    • -Infected for 4-5 hours-> should have only infected for 30 minutes maximum. This extra time gives the cells that were infected with M13-M13K07 the time to produced M13-M13K07 phage and reinfect

5/21

  • •Results from M13-Litmus28i infection of ER2738
    • -Solid lawn of growth for diluted and non-diluted
    • -Also sickly looking growth
  • •Set up overnights
    • -ER2738 cells containing Litmus28i for freeze down
    • -BW23115 with F’ episome to make chemically competent cells
    • -ER2738 to redo infection

5/22

  • •Tested absorbance of phage produced through M13 amplification on 5/19
    • -Low absorbance of 0.018 at 269nm but no detection at wavelength 320nm
    • -Decided to redo M13 amplification
  • •Made chemically competent BW23115 with f-episome
  • •Made freeze down of ER2738 containing Litmus28i
  • •Set up overnight of ER2738 containing Litmus28i to redo M13 amplification tomorrow

5/23

  • •Protocol switch to make phage using phagemid
    • -“M13 Amplification” protocol should only be used to make more M13-M13K07, not to make M13 phage containing a different phagemid
    • -Switched to new protocol (“Use of M13K07 Helper Phage for isolation of single stranded phagemid DNA” by NEB. Made modifications (see our protocols) to isolate phage rather than single-stranded DNA)
    • -Making phage….

DATA TABLE HERE******************************************


  • •Made fresh antibiotics
    • -Chloramphenicol (34 ng/mL)
1.44g chloramphenicol into 42mL EtOH
    • -Ampicillin (50 ng/mL)
4g ampicillin into 80mL mili-Q H2O

5/24

  • •Isolated phage using new protocol
    • -Resuspended pellet in 200ul TBS and 200ul 30% glycerol
    • -Measured absorbance with UV-vis
concentration (phage/mL) = 6x10^16 x (A269-A320)/ (#of base pairs in the phage genome)

DATA TABLE HERE************************************************

  • •Infect ER2738 cells with M13-Litmus28i
    • -Wanted 1:10 phage:cell ratio. Math….
At 1 OD (e.coli), cell/mL = 5x10^8
5x10^7 phage * (1mL/4.72x10^12 phage) = 0.011ul phage
  • •Set up overnights
    • -ER2738 for infection with M13-Litmus28i
    • -BW23115 F’ for infection with M13-Litmus28i to test infectivity of conjugated strain

Week 4

5/25

  • •Infect ER and BWF’ cells with M13-Litmus28i
    • -Made 5mL culture of ER and BW that was at 1 OD

DATA TABLE HERE********************************************************

    • -Based on calculations from 5/24, we needed to add 0.011 ul phage per 1 mL of cells at 1 OD. This equates to 0.055 ul of phage into 5 mL cells; therefore we made a 1:10 dilution so we could add 0.5ul. Unfortunately, the pipet would not take up 0.5ul so we added 0.8ul of M13-Litmus28i phage
    • -Grew the cells for 20 minutes at 37C
    • -Plated 300ul onto Kanamycin (50ug/mL) and 300ul onto Ampicillin (100ug/mL) for each sample
Incubated overnight at 37C
  • •Note: During the production of phage, the phagemid SHOULD be packaged preferentially over the Helper Phagemid but some Helper Phagemid will still be packaged. We plated on Amp to select for cells that were infected with phage containing Phagemid. We plated on Kan to select for cells that were infected with phage containing Helper Phagemid. This allows us to compare the packaging efficiency of Helper Phagemid: Phagemid.

5/26

  • •Results from 5/25 infection with M13-Litmus28i

DATA TABLE HERE***********************************

    • Conclusions:
Cells grew on Ampicillin; therefore, Litmus28i phagemid was successfully packaged into M13 phage.
For ER2738 samples, there was significant growth on Ampicillin compared to Kanamycin; therefore, Litmus28i phagemid is packaged preferentially over M13K07 Helper Phagemid
M13-Litmus28i retains its infectivity of cells containing the F’ episome
    • -Because we received lawns, we have to redo the infection and plate less cells so we can calculate the uptake ratio between the phagemid and helper phage based on the number of colonies
  • •Started 50 mL overnight of K12 ER2738 and BW23115

5/27

  • •Redo the infection done on 5/25
    • -Infectable cells: ER2738 and BW23115
Plated non-infected samples of each (non-diluted) to check for contaminants
    • -Diluted M13-Litmus28i (1) phage by a factor of 10. Added 5.5ul to each sample
    • -Grew samples for 20 minutes at 37C, 250rpm
    • -Plated 100ul of onto an Ampicillin (100ug/mL) plate and onto a Kanamycin (50ug/mL) plate. Incubated overnight at 37C.
Dilutions = 1:10; 1:100; and 1:1000

5/28

  • •Results from 5/27
    • -Controls were as expected
No growth for ER2738 non-infected grown on Amp, ER2738 non-infected grown on Kan, or BW23115 non-infected grown on Amp
Growth for BW23115 non-infected grown on Kan (BW23115 has Kan R in genome)
    • -Many colonies were received for all dilutions (1:10, 1:100, and 1:1000) of the following
ER2738 infected and plated on Amp
BW23115 infected and plated on Amp
BW23115 infected and plated on Kan
    • -Many (100s to 1000?) colonies grew on 1:10 and 1:100 dilutions of ER2738. 50-100 colonies grew on the 1:1000 dilution of ER2738
Compare this to the 100-200 colonies that grew from 2/25 infection (which was 300ul non-diluted, infected cells)
Reasons for increased yield
•Added too much phage?
•volume changed between experiment (5mL to 50mL)
•Overnight culture may not have been saturated. If still in log phase, the cells would continue to grow
  • •Made 50mL O/N cultures of ER2738 and BW23115 so we can repeat the infection tomorrow and plate further dilutions starting at 1:1000
    • -Carry out infection in 5mL and 50mL to test volume effect?

5/29

  • •Measured OD of overnights

DATA TABLE HERE**************************************************

  • •Experiment 1: Infect cells using same method as 5/25 (in a 5mL culture)
    • -Started with 1OD cells in 5mL
    • -Added about 0.7ul (inaccuracies in pipet) of 1:10 diluted M13-Litmus28i phage
    • -Incubated (rotating) for 20 minutes
    • -Made 1:1,000 and 1:10,000 dilutions
    • -Plated 100ul on Ampicillin (100ug/mL) plates and on Kanamycin (50ugmL) plates
Included non-infected samples diluted by 1:1000
This negative control can be used for Experiment 2 since the non-infected parent solution is the same
    • -Incubate overnight at 37C
  • •Experiment 2: Infect cells using protocol from “Eliminating helper phage from phage display”
    • -Diluted O/Ns to OD of 0.1 in 50 mL culture
    • -Grew samples until of OD of ER2728 = 0.59 and the OD of BW23115 = 0.60
Missed OD of 0.5 mark, but the two samples are close to each other
    • -Chilled samples on ice for 30 minutes
    • -Warmed in incubator for 35 minutes (should have been 30)
    • -Amount of phage. Rather than use 1:1 as mentioned in protocol, we used multiplicity of 1:10 (phage:cell)
Added 3.3ul of 1:10 diluted M13-Litmus28i (1) phage
•(On 5/27 we added 5.5ul of diluted phage to 50mL of cells at OD of 1. Our cells were at OD of .6; therefore, 5.5*.6 = 3.3ul)
    • -Incubated for 30 minutes at 37C, not shaking
We later change this to shaking
    • -Dilutions
1:1,000; 1:5,000; 1:10,000; 1:50,000; 1:100,000; 1:1,000,000
Plated ER2738 and BW23115 on Ampicillin (100ug/mL)
Plated ER2738 on Kanamycin (50ug/mL)
  • •Experiment 3: Growth Test (for growth curve)
    • -We were concerned by the low OD of the Overnights from the last few days. Wanted to be sure that 2.0-3.0 was not still in log phase. Cultures looked saturated but the OD seemed low.

DATA TABLE HERE ****************************************

47 (369 minutes elapsed) for BW23115 conjugated (without antibiotics) is most likely an error. It has been removed from the growth plot

GRAPH HERE *****************************************************

  • •Other
    • -Made Amp and Kan plates (1 sleeve of each)
    • -Made 50mL O/N of ER2738 and BW23115F’ in case we need further dilutions
    • -Made 5mL O/N of ER2738, BW23115F’, and BW23115 (without F’ episome) to make chemically competent tomorrow
Did not have plate of BW23115 (without F’ episome) so used freeze down. Hoping to get O/N of a picked colony from CRISPR Team tomorrow morning

5/30

  • •Made chemically competent cells of…
    • -ER2738
    • -BW23115F’ (conjugated with F’ episome)
    • -BW23115 (not conjugated- without F’ episome)
Culture started from plate
    • -BW23115* not conjugated (without F’ episome)
Culture started from freeze down
  • •Results from infections
    • -Negative Controls (cells were not infected; cells were diluted 1:1000)

DATA IMAGE******************************************

Results from Experiment 1 (5/29)

DATA IMAGE******************************************

Results from Experiment 2 (5/29)

DATA IMAGE******************************************

Math

If there are 5.00E+8 cells in 1mL of culture at OD of 1, then in 1mL of culture at OD of 0.59, there are 2.95E+8 cells. In a 50mL culture at OD of 0.59, there are 1.48E+10 cells.
We added 3.3ul (0.0033mL) phage at concentration 4.62E+11 phage/mL which amounts to 1.52E+9 total phage
Assuming that 1 phage infects 1 bacterium, we can assume that 1.52E+9 bacterial have the potential to be infected in the 50mL culture
We plated 100ul of culture at various dilutions. If not diluted, the number of cells that can be potentially infected in 0.1mL equals 1.52E+9/500, or 3.05E+06 cells. We then accounted for the dilutions (for 1:1000 dilution, we divided 3.05E+06 by 1000 to receive 3.05E+03)
The following table contains the number of cells with the potential to be infected assuming a 100% infectivity rate by M13 phage and that 1 cell is infected only once.

DATA TABLE*************************************************

  • •Conclusions from infections
    • -Results between and within the three trials are inconsistent. For example, the number of colonies received in experiments 1 and 2 from 5/29 differ greatly. Due to the differences in protocol, variation was expected but not to this extent.
    • -Our dilutions did not yield the expected 10 fold (or 5 fold) decrease in growth that was expected.
    • -Plates from 5/29 could be plated better to reduce dense areas of growth and growth around the rim.
    • -Though the experiment contained many errors we can say that the phagemid (Litmus 28i) is preferentially packaged compared to the helper phage (M13K07) but not to the degree we expected.
    • -Could receive increased occurrences of cells containing M13k07 due to infection, phage production, further infection

Week 5

6/2

  • •Tested chemically competent cells through transformation
Are cells contaminated?
Are cells competent?
  • •The samples for transformation

DATA TABLE *************************************

6/3

  • •Results from 6/2 Transformation

DATA TABLE*******************************************

  • •The transformations with DNA from the well (B2 and P2) had lower efficiencies than those with DNA from a mini-prep. Most likely this is due to the differences in DNA concentration (p110+RBS (2) 4/23 was at 254.4ng/ul)
  • •Conclusions
None of the competent cells were contaminated
All of the competent cells are in fact, competent
  • •Set up O/N of DH5-alpha cells to make competent tomorrow

6/4

  • •Isolation of single-stranded phagemid DNA using M13K07
    • -Added ER2738 colony to 50mL LB
Plate was cold. Next time warm plate before pricking
•Best to use freshly grown plate
    • -After 4 hours, OD was at 0.02. Waited 45 minutes and OD was at 0.08. Therefore, we infected at OD 0.08
    • -Had started another culture when we did not think the first was growing. In incubator for about 1 hour. OD was 0.00. We infected anyway because last time it worked.
    • -Let infection proceed for 60 minutes then added 70ul of Kanamycin to be a final concentration of 70ug/mL
  • •Primers came in to biobrick M13ori (packaging signal on Litmus28i)
    • -Resuspended primers and diluted 1:10

6/5

  • •Isolated single-stranded M13K07 DNA
    • -Final concentration = 5724 ng/ul (calculated from a 1:10 dilution)
    • -For second sample in pair, we resuspended it in TE but did not proceed to DNA extraction teps
    • -For the second culture we started 6/4, we resuspended pellet in TBS and glycerol to preserve the M13 phage. Measured absorbances (before glycerol was added)
    • #1
•269 => 1.690A
•320 => 0.103A
    • #2
•269 => 1.453
•320 => 0.059
  • •For our first biobrick, we wanted to isolate the M13 origin, a segment ~500bp that allows for packaging into the M13 phage. We tried to achieve this by biobrick assembly and by Gibson Assembly.
    • -To biobrick M13 ori through biobrick assembly (the old-school way)
PCR on Litmus 28i to amplify/biobrick M13ori
•Used primers Gem003 F & R
•Diluted Litmus 28i DNA 1:10
Digestion of p11+RBS (1) to digest pSB1C3 bb with EcoRI-HF and PstI-HF
Ran samples on gel and gel extracted pieces. We recieved very low yields (out of range for nano drop)
•M13 ori: 4.0 ng/ul
•pSB1C3: 1.8 ng/ul
Digested M13 ori fragment despite poor extraction yield with EcoRI-HF and PstI-HF
•Used 1.5x as much DNA as instructed based on inaccurate concentration

GEL IMAGE********************************************************

Gel extracted red rectangles
Ligation
•10hr @ 16C, 10min @ 65C, 4ever @ 4C
  • To biobrick M13 ori through Gibson Assembly (the cool-kids way)
PCR on Litmus 28i
•Used primers Gem002 F & R
•Diluted Litmus 28i DNA 1:10
PCR on pSB1C3 (p11+RBS (1))
•Used primers Gem001 F & R
•Diluted pSB1C3 DNA 1:3

6/6

  • •Ran gel of PCR products from (6/5). Products will be used for Gibson Assembly
    • -Recieved bands for pSB1C3 around 2000bp and M13ori around 500bp
    • -No contamination in pSB1C3 PCR negative control
    • -Band in M13ori negative control that is the same size as sample. Contaminated by sample?
    • -Gel of PCR products #1 and #2 from 6/5

GEL IMAGE *****************************************

1. pSB1C3 with promoter+RBS as insert. Amplified with Gem001
2. No DNA control for Gem001
3. M13ori amplified with Gem002 from Litmus28i
4. No DNA control for Gem002
  • •Gibson Assembly

DATA TABLE *****************************************************

    • -Diluted pSB1C3 and M13ori PCR products 1:10
    • -Incubated 60min @ 50C
    • -Also used provided pUC16 as positive control
  • •Transformation
    • 1. p110+RBS Positive control
    • 2. No DNA Negative control
    • 3. Cas9 from distribution kit so we can have more
    • 4. Thaw and refreeze cells Test competency of comp cells after thawed
    • 5. Not chem comp cells Negative control for the above
    • 6. Ligation Product
    • 7. Gibson product
7.2. Gibson product diluted 1:4
    • 8. Gibson positive control
7.2. Gibson positive control diluted 1:4
    • For the Gibson product and the positive control, we transformed 2ul of product and 2ul of 1:4 diluted product. NEB recomends the first if using their competent cells and the second if using cells from other companies. Our cells are from NEB but we made them competent ourselves so we tried both ways
Plated on Chlor at concentrations of 170, 85, and 33 ug/mL
  • •Primers came in
    • Resuspended and made 1:10 dilutions

6/7

  • •Results from 6/6 transformation
  • 1. Positive control
Lots of growth, ~300-400 on 1:10 dilution
  • 2. No DNA negative control
No growth
  • 3. Cas9 from distribution kit
7 potential colonies (some are close to edges through) on non-diluted
  • 4. Thawed then refroze cells
Looks like (1)
  • 5. Not chemically competent cells
No growth
  • 6. Ligation product
13 potential colonies (some are close to edge)
  • 7. Gibson Assembly Product
170 -> No colonies
85 -> No colonies
33 -> 3 specks
  • 7.2. Gibson Assembly product diluted 1:10
170 -> 1 speck
85 -> 3 colonies
33 -> 13 colonies
  • 8. Gibson positive control
No colonies
  • 8.2. Gibson positive control diluted 1:4
No colonies
  • •Made 6mL O/N cultures
    • 4 from (3) cas9 plate
See Constitutive CRISPR notebook for more info on these samples
    • 7 from (6) Ligation product
    • 5 from (7.2 [85]) Diluted Gibson product on 85 ug/mL Chlor
    • 8 from (7.2 [33]) Diluted Gibson product on 33 ug/mL Chlor

Week 6

6/8

  • •Check colonies for correct constructs.
    • Mini-prepped all 24 O/Ns
Yielded low concentrations for samples 12, 15, 19, and 22
    • Digested all with EcoRI and PstI (10ul reactions)
    • Ran results on gel
All 4 cas9 samples had the expected bands of 2000 and 5000bp
All 7 ligation products have expected bands of 2000 and ~570bp
3 of 5 Gibson assemblies from 85ug/mL Chlor plate had expected bands of 2000 and ~500bp
3 of 8 Gibson assemblies from 33ug/mL Chlor plate had expected bands of 2000 and ~500bp

GEL IMAGE 1-11*********************************************** GEL IMAGE 12-24*********************************************

  • •1-4: Cas9 from Stanford-Brown team
  • •5-11: pSB1C3-M13ori cloned through ligation
  • •12-24: pSB1C3-M13ori cloned through Gibson Assembly
    • -12-16: Grown with 85 ug/mL Chlor
    • -17-24: Grown with 33 ug/mL Chlor
  • •Conclusions from gel
    • •We have cas9 safely in cells
    • •Our ligation reactions successfully yielded M13ori on pSB1C3
    • •Combined, we had a 46% success rate for the Gibson Assembly in yielding M13ori on pSB1C3
      • •The 4 samples that had the lowest concentration after being mini-prepped (12,15, 19, and 22) correlate with samples that had the correct band pattern
  • •We selected 4 samples from each (4 total between the two Gibson reactions) type
    • •For non-Gibson Assembled samples
      • •Plated 25ul on 170ug/mL Chlor
                            • TABLE IMAGE**********************************************
•Added 6mL LB and Chlor at concentration of 170ug/mL to grow O/N
  • •For Gibson Assembled samples
    • •Plated 25ul onto 170, 85, and 33ug/mL Chlor
    • •Samples from 85ng/mL plate
-Transferred 100ul to new tube, added media, added Chlor at 170ng/mL
    • •Samples from 33ng/mL plate
-Tranfered 100ul to new tubes, added media, added Chlor at 85ng/mL to one and 33ng/mL to the other
    • -Tomorrow, may send for sequencing and make freeze downs
  • •Transformation
  • 1. Positive control (p110+RBS diluted 1:10)
  • 2. Non-diluted Gibson product
  • 3. Gibson product diluted 1:4
  • 4. Gibson product diluted 1:10
  • Transformed each sample using our usual method and using the protocol given by Gibson
    • -Due to not have plates ready before transformation, in step 4, the samples sat for about 50 minutes. Then in step 8, they both recovered for about 150 minutes. Though not specified in our protocol, we did warm the plates to 37C. In step 10 for our protocol, since we only added 200ul SOC and wanted to plate on 3 selection plates (see below), we only plated 50ul (except for the positive control).
    • -Plated on three concentrations of Chloramphenicol (33 ug/mL, 85 ug/mL, and 170 ug/mL) to determine the differences in yield due to differences in concentration.Obvious hypothesis: more colonies will grow on plates that have a lower concentration of chlor.


6/9

  • •Made chemically competent 5alpha cells with Dan and Alex from main campus
    • -Waiting to hear results on competency
  • •Will eventually make phage containing CRISPR-Cas9 that targets Kanamycin resistance. M13K07 has Kanamycin resistance so we need to switch the resistance on the M13 genes.
    • PCR on pwp 2.po (plasmid that Sam gave us that contains the zeoR gene adjacent to ori) to amplify zeoR and ori. Zeo is on EM7 promoter
      • -Primers: Gem008 R & R
      • -Anneal temp from NEBuilder: 63.7C
      • -Extension time: 90s
      • -expected band size on gel: 1300bp
      • -Used phusion polymerase
    • PCR on M13K07 DNA to amplify M13 phage genes (also removes majority of M13 ori, all of KanR, and all of p15 ori)
      • -Primers: Gem007 F & R
      • -Anneal temp from NEBuilder: 60.2C
      • -Extension time: 4:30
      • -Expected band size on gel: about 6000bp
      • -Used phusion polymerase
  • •Freeze downs
    • Note: Phagemid 1C3 was the original name for ‘pSB1C3-M13ori’
          • DATA TABLE***********************************************************


6/10

  • •Ran gel of PCRs from 6/9
                              • GEL IMAGE**************************************
        • 1. Amplification of M13 genes from M13K07 (~6000bp)
        • 2. No DNA control for (1) amplification
        • 3. Amplification of Zeo resistance gene + plasmid ori (~1300bp)
        • 4. No DNA control for (3) amplification
  • •Gibson Assembly of above parts (did not gel extract)
    • -Diluted the PCR products 1:10 then added 3ul of M13K07 genes product and 7ul of ZeoR+ori product
    • -Incubated at 50C for 60 min.
    • -Transformed Gibson Assembly product into 5alpha cells
      • •Used our usual protocol
      • •Add 2ul of DNA
        • •In one sample, diluted DNA 1:4 and in the other, we diluted DNA 1:10
  • •Started Phage Amplification Protocol
    • -ER2738 transformed with Litmus 28i
      • Grew for ~2.5hr before reaching an OD of 0.04
    • -ER2738 transformed with pSB1C3-M13ori (M13ori on pSB1C3)
      • Grew for ~ 3.5hr before reaching an OD of 0.01, then in the next 1.5 hours, spiked to 0.19
        • We gave up and went home, and will restart tomorrow
  • •Analyzed transformation results from 6/8

6/11

  • •Made chemically competent 5alpha cells
  • •Restarted Phage Amplification Protocol
    • -Forgot to add phagemid antibiotic at start of growth. Added phagemid antibiotic when we added phage. Incubated for 90 minutes before adding Kanamycin (to select for cells that were infected by M13K07)
    • -Phage is at concentration 4.57x10^12 phage/mL
      • Protocol calls for final concentration of 1 x10^8 phage/mL
        • •(4.57 x10^12)*V = (1 x10^8)(50mL)
        • •V = 0.00109mL
      • Added 1.1ul of phage

•*Transformations

  • *-DNA Plate Selection
  • *-No DNA control (all)
  • *-Positive control (p110+RBS) (C)
  • -M13 genes + ZeoR ori (Z)
  • -M13 genes + ZeoR ori diluted 1:4 (Z)

6/12

  • •Transformation Results from 6/10 [Took ~36 hours to be clearly visible]

o No DNA control  Amp: 0  Zeo (50ug/mL): 200 colonies o M13 genes + ZeoR ori (1:4 dilution)  Zeo (25ug/mL): 300  Zeo (50ug/mL): 200  Zeo (100ug/mL): 100 o M13 genes + ZeoR ori (1:10 dilution)  Zeo (25ug/mL): 300  Zeo (50ug/mL): 150  Zeo (100ug/mL): 150 • Transformation Results for 6/11 o Positive (p110+RBS) on Chloramphenicol: 500 colonies o No DNA on Amp: 0 colonies Zeo (100 ug/mL): specks o No apparent growth on any other plate  Realized later that we grew our samples on the wrong plates. Will repeat transformation today • Transformation #1 o This morning there were no colonies on positive (p110+RBS) coltrol from 6/11 even though we observed fast growth in the past. Without waiting for colonies to appear, we started a control transformation o