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Revision as of 15:21, 25 August 2014



Biosynthesis


06/09/2014

The enzymes involved in the biosynthesis pathways are AtrΔ11, HarFAR, FAO1, EaDAcT.



The design of the GBlocks was performed taking into account the following considerations:

  • Codon optimization
  • Inner restriction sites eliminations by finding synonymous mutations
  • Addition of GB endings

06/10/2014

Codes for IDT known. MEGAGEM2014 - 25% off one order, up to 800 USD

GBlocks designed to be compatible with BioBricks and GoldenBraid (GB).


06/11/2014

We ordered the following gBlocks and primers.

  • EaDAcT: Eunymus alatus (adapted for GB) 1127 bp
  • HarFAR: Helicoverpa armigera (adapted for GB) 1400 bp
  • AtrΔ11: Amyelois transitella (order primers for GB) 1000 bp
    • I14Jun03 AtrΔ11 F1
    • I14Jun04 AtrΔ11 R1
  • FAO1: N. benthamiana primers
    • I14Jun01 FAO1 F1
    • I14Jun02 FAO1 R1
NameSequenceLenghtTm (NTI)Tm (Phusion)
I14Jun01_FAO1_F1cgccgtctcgctcgaatggagaaaaagagccatcc3549.962.4
I14Jun02_FAO1_R1cgccgtctcgctcgaagcttatcttgagaatttgccttcttttatc4654.563.7
I14Jun03Atr_D11_F1gcgccgtctcgctcgaatggttcctaataag3154.565.3
I14Jun04Atr_D11_R1gcgccgtctcgctcgaagctcaacgtttc295769.1

06/24/2014

We thought which parts of the GB collection could we use.

Strategy 1:

  • pP35S, pT35s (x2)
  • pAtUbq10, pTAtHSP18.2

Strategy 2:

  • pP35S, pT35s
  • pP35s, pTAtHSP18.2
  • pAtUbq10, pTAtHSP18.2

Strategy 3:

  • pP35S, pT35s
  • pP35s, pTTctp
  • pAtUbq10, pTAtHSP18.2

Pieces to take from GB2.0 colection:

pDGB2α1GB0483Kan
pDGB2α2GB0484Kan
pP35sGB0030Amp
pT35sGB0036Amp
pAtUbq10GB0223Amp
pTAtHSP18.2GB0035Amp
pTTctpGB0081Amp
pUPDGB0317Amp

Later we will need:

pDGB2Ω1GB0487Smp
pDGB2Ω2GB0488Smp

Prepare plaques with antibiotics Kan, Spm, Amp


06/25/2014

Grow the selected pieces from the GB collection in liquid medium (performed in laminar air flow cabinet).


06/26/2014

Culture in agar Petri dish. 2 plaques: Amp and Kan.

Minipreps with EZNA Plasmid DNA MiniKit I.

Expected digestions:

pP35s GB0030NotIBuffer: Orange2981, 1105
pT35s GB0036NotIBuffer: Orange2981, 304
pAtUbq10 GB0223NotIBuffer: Orange2981, 714
pTAtHSP18.2 GB0035NotIBuffer: Orange2981, 328
pTTctp GB0081NotIBuffer: Orange2981, 487

Electrophoresis analysis.

We got the expected bands in all cases.


07/01/2014

AtrΔ11 amplification by PCR with primers that contain extra nucleotides to introduce them in the sequence.

We made a PCR amplification using the AtrΔ11 gene as a template and the oligos: R +F

Reagents needed:

  • 32.5 μL of H2O miliQ
  • 10 μL HF buffer
  • 2 μL dNTPs
  • 2.5 μL Reverse primer
  • 2.5 μL Forward primer
  • 1 μL template (AtrΔ11 gene)
  • 0.5 μL phusion (polimerase)

PCR parameters: The annealing temperature was 60°C and the extension temperature was 65°C.

Electrophoresis performed to check the PCR product, which was expected to be around 1 kb.

pUPD ligation of EaDAcT, HarFar and AtrΔ11

Reagents needed for the reaction of ligation:

  • 1 μL pUPD
  • 1 μL PCR product/gblock product
  • 1.2 μL buffer 10x
  • 1 μL BsmBI
  • 1 μL T4 ligase
  • 6.8 μL H2O miliQ

Vfinal= 12 μL

Termocycler parameters: The ligase temperature was 16°C and the BsmBI temperature was 37°C.

As a result, there are obtained three different pUPD plasmids containing the genes EaDAcT, HarFAR and AtrΔ11.


07/02/2014

E. coli transformation. This step is performed in a laminar air flow cabinet (LAF). We have used an electrocompetent E. coli strain (DH5α) and a sample from each product of ligation made in the previous step (three pUPD plasmids, each of them containing one of the three genes), so transformation is made three times.

Reagents needed:

  • E. coli aliquot
  • 1.5 μL of ligation in pUPD (for each gene: EaDAcT, HarFAR, AtrΔ11)

Each mix is introduced in a electroporation vial and electroporated at 1500 V, then 300 μL of SOC are added to each vial. All of them were incubated at 37°C for 1 hour.

After incubation, culture in Petri plates (always in a LAF).

2 cell-culture dishes per transformation (with Ampicillin), one with 50 μL and the other with the remaining volume.

Petri plates are incubated at 37°C for 16 h.


07/03/2014

Transformed colonies selection. The white ones are recultured in liquid medium. One colony of each transformation is picked and cultured in 3.5 mL LB and 7 μL Amp. This step is repeated three times:

  • 3x 1 colony of EaDAcT in pUPD + LB + Amp
  • 3x 1 colony of HarFAR in pUPD + LB + Amp
  • 3x 1 colony of AtrΔ11 in pUPD + LB + Amp

All tubes are incubated at 37°C overnight in agitation.


07/04/2014

Digestions in silico using Vector NTI to check after minipreps if ligations are correct.

EaDAcTNotI2981, 1167
RsaI1876, 1343, 532, 306, 91
HarFARNotI2981, 1440
PvuII2564, 1394, 463
AtrΔ11NotI2981, 1056
BanII2570, 803, 351, 314

Digestion reagents:

  • 0.5 μL restriction enzyme
  • 2.5 μL buffer
  • 21 μL H20 (miliQ)
  • 1 μL sample

Preparation of master mixes

  • Master mix for NotI
    • 5 μL NotI
    • 25 μL Orange
    • 210 μL H20
  • Master mix for RsaI
    • 1.5 μL RsaI
    • 7.5 μL Tango
    • 63 μL H20
  • Master mix for PvuII
    • 1.5 μL PvuII
    • 7.5 μL Green
    • 63 μL H20
  • Master mix for BanII
    • 1.5 μL BanII
    • 7.5 μL Tango
    • 63 μL H20

Perform electrophoresis to check if the size of the fragments from the digestions is correct.

Comments:

  • We picked blue colonies instead of white by mistake. We need to pick colonies again but this time make sure we pick white colonies.
  • For the repetition we must find another enzyme instead of BanII as we found out that it doesn't cut very well.

07/06/2014

We picked again 3 colonies for each construction, and we made sure that we picked the WHITE ones. We cultivated them in a "double check" (name invented by us) liquid medium. Those tubes contain:

  • 3.5 mL LB
  • 7 μL Amp
  • 7 μL X-Gal
  • 3.5 μL IPTG (turns the tube blue if the colonies picked were blue)

07/07/2014

We made minipreps of yesterday's culture. Thanks to our "double check" medium we found which colonies were well picked. Finally we had minipreps of tubes HarFAR 1, 2, 3; EaDAcT 3 and AtrΔ11 2, 3.

Once we had the minipreps, we perform the digestions to check which were correct and send them to sequencing. This time we selected RsaI instead of BanII. The in silico digestions were as follows.

EaDAcTNotI2981, 1167
RsaI1876, 1343, 532, 306, 91
HarFARNotI2981, 1440
PvuII2564, 1394, 463
AtrΔ11NotI2981, 1056
RsaI1879, 1310, 467, 327, 54

Preparation of master mixes

  • Master mix for NotI
    • 3.5 μL NotI
    • 17.5 μL Orange
    • 147 μL H20
  • Master mix for RsaI
    • 2 μL RsaI
    • 10 μL Tango
    • 84 μL H20
  • Master mix for PvuII
    • 2 μL PvuII
    • 10 μL Green
    • 84 μL H20

We run the electrophoresis gel to check if this time we have done it correctly.

Everything was OK. We sent AtrΔ11 (3), HarFAR (3) and EaDAcT (3) to sequence.


07/08/2014

Now, while we wait for sequencing results, we go on as they were going to be correct in order to save time.

The next step is to build a transciptional unit (TU) with our sequences. A transcriptional unit is a structure composed by promoter, coding sequence (CDS) and terminator in an α or Ω vector.

Reagents needed for ligation:

  • 1 μL promoter 75 ng/μL
  • 1 μL terminator 75 ng/μL
  • 1 μL CDS 75 ng/μL
  • 1 μL vector α
  • 1.2 μL ligase buffer 10x
  • 1 μL T4
  • 1 μL BsaI
  • 4.2 μL H20

Total: 12 μL

Take into account that if we want to make binary constructions later (merge 2 TU in a same vector), we need to clone each TU in a different α vector.

Strategy Promoter-Terminator:

AtrΔ11P35sT35s40.41
HarFARP35sTatHSP39.68
EaDAcTPAtUbqTatHSP32.27

Adjust concentrations to 75 ng/μL for ligation reaction

Initial concentrations (nanodrop):

PieceConcentrationsVolumeVolume of H20 to add
PAtUpb442.6 ng/μL34 μL166.6 μL
pTatHSP235.4 ng/μL36 μL77 μL
T35s194.9 ng/μL37.5 μL60 μL
P35s454.7 ng/μL36 μL182 μL
2α157.1 ng/μL-We will need to put 1.5 μL of this one
2α2104.0 ng/μL38 μL14.7 μL
AtrΔ11359.3 ng/μL20 μL75.8 μL
HarFAR404.4 ng/μL15 μL65.9 μL
EaDAcT155.6 ng/μL10 μL10.7 μL

Ligation reaction

  • P35s:AtrΔ11:T35s in 2α1
    • 1 μL P35s
    • 1 μL T35s
    • 1 μL AtrΔ11
    • 1.5 μL 2α1
    • 1.2 μL ligase buffer 10x
    • 1 μL T4
    • 1 μL BsaI
    • 3.7 μL H20
  • P35s:HarFAR:TatHSP in 2α2
    • 1 μL P35s
    • 1 μL TatHSP
    • 1 μL HarFAR
    • 1 μL 2α2
    • 1.2 μL ligase buffer 10x
    • 1 μL T4
    • 1 μL BsaI
    • 4.2 μL H20
  • PAtUbq:EaDAcT:TatHSP in 2α2
    • 1 μL PAtUbq
    • 1 μL TatHSP
    • 1 μL EaDAcT
    • 1 μL 2α2
    • 1.2 μL ligase buffer 10x
    • 1 μL T4
    • 1 μL BsaI
    • 4.2 μL H20

07/09/2014

Transformation of constructions in E. coli

We finally got the sequencing results from 07/07/2014.

  • Mutation in AtrΔ11 -> We threw away the colonies and transformed cells. We picked again white colonies.
  • HarFAR -> Sequencing correct
  • EaDAcT -> Synonim mutation in 601 (A -> T). This is a gBlock!

We took vectors 2Ω1 (GB0487) and 2Ω2 (GB0488) parts from the GB colection.

  • Worked in the LAF
  • Cultivated in a Petri dish with Spm
  • Let them grow for one day

Cultivate transformated cells in two Kan plaques (Kan matches vector α)

  • 50 mL transformation in one plaque
  • Rest of the culture in another (250 μL aprox)
  • Let them grow for one day

07/10/2014

Pick colonies and grow them in liquid medium.

  • 6 from AtrΔ11 (repetition because of mutation)
    • 3.5 mL LB
    • 7 μL Amp
    • 7 μL X-gal
    • 3.5 μL IPTG
  • 1 colony from 2Ω1
    • 3.5 mL LB
    • 7 μL Spm
  • 1 colony from 2Ω2
    • 3.5 mL LB
    • 7 μL Spm
  • 3 colonies from P35s:HarFAR:TatHSP
    • 3.5 mL LB
    • 7 μL Kan
  • 3 colonies from PAtUbq:EaDAcT:TatHSP
    • 3.5 mL LB
    • 7 μL Kan

Grow at 37°C in agitation overnight.

We have checked the promoters and terminators are both compatible with GB and BioBricks.

Only P35s and T35s work for both. pPnos could also work.

Pick 3 colonies of P35s:HarFAR:THsp and PAtUbq:EaDAcT:THsp. Culture in liquid medium with Kan.


07/11/2014

We made minipreps of yesterday's liquid culture. Thanks to our "double check" medium we found which colonies were well picked. Finally we had minipreps of tubes AtrΔ11 3 and 6; 2Ω1; 2Ω2; constructions P35s:HarFAR:TatHSP 1, 2, 3 and PAtUbq:EaDAcT:TatHSP 1, 2, 3.

Additionally, we have cultured each of the colonies named above to store them.


07/14/2014

We tested the minipreps made last friday by digestion. Once they were checked, we send the correct ones to sequencing. The in silico digestions were as follows.

PartsRetriction enzymeExpected Bands
PAtUbq:EaDAcT:TatHSP in 2α2HindIII6322, 1722, 736, 221
P35s:HarFAR:TatHSP in 2 α2HindIII6322, 1794, 221
AtrΔ11NotI2961, 1056
2Ω1BamHI6652, 382, 239
2Ω2EcoRV6652, 621

Preparation of master mixes

  • Master mix for HindIII
    • 3.5 μL HindIII
    • 17.5 μL Red
    • 147 μL H20
  • Master mix for NotI
    • 1.5 μL NotI
    • 7.5 μL Orange
    • 63 μL H20
  • Mix for EcoRV
    • 0.5 μL EcoRV
    • 2.5 μL Red
    • 21 μL H20
  • Mix for BamHI
    • 0.5 μL PvuII
    • 2.5 μL Green
    • 21 μL H20

We run the electrophoresis gel to check if this time we have done it correctly.

Everything was OK except the AtrΔ11 (3), which had some partial digestion. It was the reason we sent AtrΔ11 (6) to sequence.


07/15/2014

We got the sequencing results from yesterday and everything was OK, so we made the transcriptional units ligation.

Reagents needed for the reaction of ligation (Total volume = 12 μL):

  • P35s:AtrΔ11:T35s in 2α1
    • 1 μL P35s
    • 1 μL T35s
    • 1 μL AtrΔ11
    • 1.5 μL 2α1
    • 1.2 μL ligase buffer 10x
    • 1 μL T4
    • 1 μL BsaI
    • 3.7 μL H20
  • P35s:HarFAR:T35s in 2α2
    • 1 μL P35s
    • 1 μL T35s
    • 1 μL HarFAR
    • 1 μL 2α2
    • 1.2 μL ligase buffer 10x
    • 1 μL T4
    • 1 μL BsaI
    • 4.2 μL H20
  • P35s:EaDAcT:T35s in 2α2
    • 1 μL P35s
    • 1 μL T35s
    • 1 μL EaDAcT
    • 1 μL 2α2
    • 1.2 μL ligase buffer 10x
    • 1 μL T4
    • 1 μL BsaI
    • 4.2 μL H20

Note: Concentrations were previously adjusted to 75 ng/μL. Only the AtrΔ11 was adjusted from 250.2 ng/μL.

Finally, we prepared liquid cultures in order to store in glicerol. The tubes we used and their respective antibiotics were:

  • Amp
    • pAtrΔ11 (6)
    • pEaDAcT (3)
    • pHarFAR (3)
  • Kan
    • P35:HarFAR:TatHSP in 2α2 (3)
    • PPAtUbq:EaDAcT:TatHSP in 2apha2 (3)

07/16/2014

Storage in glycerol of the HarFAR (GB1018), AtrΔ11 (GB1019), EaDAcT (GB1020), P35s:HarFAR:TatHSP in 2α2 (GB1021) and PAtUbq:EaDAcT:TatHSP in 2α2 (GB1022). We made 3 tubes: one for us, one for the GB collenction and one for reserve.

The procedure is to mix 700 μL of culture with 300 μL of glycerol 50%, spin it and store it in the -80°C.


07/17/2014

Pick 3 colonies of P35s:AtrΔ11:T35s, P35s:HarFAR:T35s and P35s:EaDAcT:T35s. Culture in liquid medium with Kan.

Digestions in silico.

Transcriptional unitsRestriction enzymesExpected bands
P35s:AtrΔ11:T35sEcoRI6323, 2269
NcoI390, 8202
P35s:HarFAR:T35sHindIII933, 6322, 1722
NcoI8587, 390
P35s:EaDAcT:T35sHindIII6322, 2366
EcoRV683, 8021

Preparation of reagents needed for genomic extraction of Candida tropicalis for FAO1.


07/18/2014

Mistake in P35s:AtrΔ11:T35s, P35s:HarFAR:T35s and P35s:EaDAcT:T35s minipreps. Repeat tomorrow.


07/19/2014

Minipreps of P35s:AtrΔ11:T35s, P35s:HarFAR:T35s and P35s:EaDAcT:T35s. Concentration measuments with nanodrop.

Transcriptional unit DNA concentration
P35s:AtrΔ11:T35s (1)164 ng/μL
P35s:AtrΔ11:T35s (2)168 ng/μL
P35s:AtrΔ11:T35s (3)147.4 ng/μL
P35s:HarFAR:T35s (1)125.3 ng/μL
P35s:HarFAR:T35s (2)114.5 ng/μL
P35s:HarFAR:T35s (3)140.3 ng/μL
P35s:EaDAcT:T35s (1)144.2 ng/μL
P35s:EaDAcT:T35s (2)137.9 ng/μL
P35s:EaDAcT:T35s (3)128.5 ng/μL
Stuffer fragment135.5 ng/μL
2Ω1196.8 ng/μL
2Ω2175.4 ng/μL

Digestions of P35s:AtrΔ11:T35s, P35s:HarFAR:T35s and P35s:EaDAcT:T35s and gel electrophoresis to check if transciptional units have been assembled OK.

All digestions were correct except P35s:EaDAcT:T35s (2).

Ligation in Ω vectors.

  • P35s:AtrΔ11:T35s + P35s:HarFAR:T35s in 2Ω1
    • 1 μL P35s:AtrΔ11:T35s (75 ng/μL)
    • 1 μL P35s:HarFAR:T35s (75 ng/μL)
    • 1 μL 2Ω1 (75 ng/μL)
    • 1 μL BsmBI (5-10 ud)
    • 1 μL T4 ligase (5-10 ud)
    • 1 μL buffer ligase (3 ud)
    • 4 μL H20
  • P35s:EaDAcT:T35s in 2Ω2
    • 1 μL stuffer fragment (75 ng/μL)
    • 1 μL P35s:EaDAcT:T35s (75 ng/μL)
    • 1 μL 2Ω2 (75 ng/μL)
    • 1 μL BsmBI (5-10 ud)
    • 1 μL T4 ligase (5-10 ud)
    • 1 μL buffer ligase (3 ud)
    • 4 μL H20

Set the reaction: 25 cycles x (37°C 2 min, 16°C 5 min).

Omega vectors include a resistance to spectinomycin.


07/20/2014

Transform and grow in Petri dishes yesterday's ligations: P35S:AtrΔ11:T35S + P35S:HarFAR:T35S in 2Ω1 and P35S:EaDAcT:T35S in 2Ω2.


07/21/2014

Pick colonies of P35S:AtrΔ11:T35S + P35S:HarFAR:T35S in 2Ω1 (3) and P35S:EaDAcT:T35S in 2Ω2 (2).


07/22/2014

We made minipreps of yesterday's liquid culture. Selected tubes:

  • P35S:AtrΔ11:T35S + P35S:HarFAR:T35S in 2Ω1(Tubes 1, 2 and 3)
  • P35S:EaDAcT:T35S in 2Ω2 (Tubes 1 and 2)

Digestions in silico made to check the transcriptional units:

Transcriptional unitsRestriction enzymeExpected bands
P35S:AtrΔ11:T35S+P35S:HarFAR:T35S in 2Ω1EcoRV9307, 2251
BamHI6652, 4906
P35S:EaDAcT:T35S in 2Ω2EcoRV6652, 1044, 817, 683
NcoI8806, 390

Digestion master mixes:

  • Master mix for NotI
    • 1.5 μL NotI
    • 7.5 μL Orange buffer
    • 63 μL H20
  • Master mix for NcoI
    • 1.5 μL NcoI
    • 7.5 μL Tango buffer
    • 63 μL H20
  • Master mix for BamHI
    • 2 μL BamHI
    • 10 μL Green buffer
    • 84 μL H20
  • Master mix for EcoRV
    • 4 μL EcoRV
    • 20 μL Red buffer
    • 168 μL H20

Note: Trichome promoter digestion preparation included.

All digestions were correct except the transcriptional unit of EaDAcT in 2Ω2 (P35s:EaDAcT:T35S).

Miniprep quantification:

PieceTubeConcentration (ng/μL)Volume (μL)
P35S:EaDAcT:T35S in 2Ω21350.733
P35S:EaDAcT:T35S in 2Ω22271.133
P35S:AtrΔ11:T35S + P35S:HarFAR:T35S in 2Ω11306.331
P35S:AtrΔ11:T35S + P35S:HarFAR:T35S in 2Ω12296.628
P35S:AtrΔ11:T35S + P35S:HarFAR:T35S in 2Ω13246.033

All of the pieces named above were adjusted at 75 ng/μL.

Piece Tube numberFinal Volume (μL)Volume to be added (μL)
P35S:EaDAcT:T35S in 2Ω21154.30121.3
P35S:EaDAcT:T35S in 2Ω22119.3086.30
P35S:AtrΔ11:T35S + P35S:HarFAR:T35S in 2Ω11126.6095.60
P35S:AtrΔ11:T35S + P35S:HarFAR:T35S in 2Ω12110.7082.70
P35S:AtrΔ11:T35S + P35S:HarFAR:T35S in 2Ω13108.2475.20

As the digestions of the transcriptional unit (TU) of EaDAcT were incorrect, we repeated the process from the ligation step.

We transformed the same TU in a E. coli competent strain (DH5α). Then, the transformants were cultured in LB media and Spm and stored at 37°C overnight.

Finally, in order to obtain the FAO1 gene, we want to extract the Candida tropicalis genome, so we have picked a colony of C. tropicalis. To check the extraction protocol, we used a yeast previously tested, Saccharomyces cerevisiae. We have cultured C. tropicalis in YPD media and S. cerevisiae in YPDA media at 28 °C (5 mL).


07/23/2014

Candida genome extraction

Saccharomyces cerevisiae is used as a control in order to see if we followed the protocol correctly. We aren't really sure if this protocol is going to work in Candida.

Cultures measured at 600 nm:

  • S. cerevisiae Abs = 1.07
  • C. tropicalis Abs = 0.39

S. cerevisiae is recultured with new media (1:2) because the previous media was saturated. 2.25 mL of YPD media were mixed with 2.25 mL of S. cerevisiae culture. The mix has to grow at 28 °C until the exponential phase is reached.

The absorbance was measured again:

  • S. cerevisiae Abs = 0.52
  • C. tropicalis Abs = 0.40

Buffers needed for the genome extraction were prepared freshly.The genome of both strains of yeast were extracted following the protocol:

  • Grow yeast in 2 or 5 mL YPD to exponential phase.
  • Collect cells in 1.5 mL eppendorf-cup (centrifugation 20 s, 6000 rpm).
  • Wash once with 1 mL sterile water.
  • Resuspend cells in 200 μL protoplast-buffer (100 mM Tris-HCl, pH 7.5, 10 mM EDTA, 1000 units Zymolyase/mL, 10 μL beta-mercaptoethanol/mL; prepare freshly!). Incubate at 37°C for 1-2 h and finally resuspend by turning the cups.
  • Add 200 μL of Lysis-Mix (0.2 M NaOH, 1% SDS) an mix carefully (Don't vortex!).
  • Incubate at 65 °C for 20 min and cool inmediately on ice.
  • Add 200 μL of 5 M KAc (pH 5.4) and mix carefully (Don't vortex!) and incubate 15 min on ice.
  • Centrifuge (13,000 rpm, 3 min) and transfer supernatant in a fresh cup.
  • Add 2 μL RNase A (10 mg/mL) and incubate at 37 °C for 30 min.
  • Add 600 μL isopropanol and mix carefully (Don't vortex!). Incubate at room temperature for 5 min ad centrifuge (13,000 rpm, 30 s).
  • Remove the supernatant and wash with 70% ethanol (10 min at room temperature).
  • Centrifuge (13,000 rpm, 30 s) and remove the supernatant.
  • Dry DNA pellet in a speed-vacuum (not longer than 3 min!) and resuspend in 50 μL TE-buffer.
  • Store chromosomal DNA at 4 °C (Don't freeze!). Concentration and quality can be checked in an agarose gel (loading 1/10 of the volume).

Genomic quantification:

OrganismConcentration
S. cerevisiae72.2 ng/μL
C. tropicalis1397.1 ng/μL

Electrophoresis made to check the extraction quality was correct.

We did not observe genomic from Candida because we used a very diluted sample. We will repeat the gel tomorrow.

We picked EaDAcT colonies.


07/24/2014

The genomic quality of both organisms (C. tropicalis and S. cerevisiae) was checked in an agarose gel again.

We got the Candida genome band, however, the Saccharomyces genome band was not present.

Additionally, minipreps of the liquid culture made yesterday were made and also recultured in solid agar plate.

Miniprep digestions are going to be done tomorrow.


07/25/2014

Digestions in silico made for checking yesterday's minipreps:

Pieces/TURestriction enzymeExpected bands
P35S:EaDAcT:T35S in 2Ω2EcoRV6652, 1044, 817, 683
NcoI8806, 390

Digestion master mixes:

  • Master mix for NotI
    • 2 μL NotI
    • 10 μL Orange buffer
    • 84 μL H20
  • Master mix for NcoI
    • 2 μL NcoI
    • 10 μL Tango buffer
    • 84 μL H20
  • Master mix for BglII
    • 2 μL BglII
    • 10 μL Orange buffer
    • 84 μL H20
  • Master mix for EcoRV
    • 1.5 μL EcoRV
    • 7.5 μL Red buffer
    • 63 μL H20

An agarose gel was made to check the transcriptional unit and the other pieces:

All pieces were correct except the TU corresponding to P35:EaDAcT:T35S.


07/28/2014

Once the Candida tropicalis genome DNA is obtained, the FAO1 gene can be amplified by PCR.

PCR reaction reagents:

  • FAO1-PCR1
    • Genomic 0.5 μL
    • Buffer HF (5X) 10.0 μL
    • dNTPs 2.0 μL
    • Oligo R (JUL06) 2.5 μL
    • Oligo F (JUL05) 2.5 μL
    • Phusion polymerase 0.5 μL
    • H2O 32.0 μL
  • FAO1-PCR2
    • Genomic 0.5 μL
    • Buffer HF (5X) 10.0 μL
    • dNTPs 2.0 μL
    • Oligo R (JUL08) 2.5 μL
    • Oligo F (JUL07) 2.5 μL
    • Phusion polymerase 0.5 μL
    • H2O 32.0 μL

Annealing temperatures

  • FAO1-PCR1: 59 °C
  • FAO1-PCR2: 64 °C

PCR products were checked using an electrophoresis. Expected bands:

  • FAO1-PCR1: 1157 bp
  • FAO1-PCR2: 1015 bp

Both FAO1 PCR products were not correct.

As the EaDAcT TU was not correct, ligation reaction was done again. The following table shows ligation details:

ReagentVolume
Trichome promoter1 μL
GFP1 μL
TNos1 μL
BsaI1 μL
p2α21 μL
T4 ligase1 μL
Ligase buffer1 μL
H2O3 μL
Total Volume10 μL

07/29/2014

As the FAO1 PCR was not correct, we repeated the reaction. Below is a table showing the details:

ReagentFAO1-PCR1FAO1-PCR2
C. tropicalis genome2.5 μL2.5 μL
HF Buffer30 μL30 μL
dNTPs10 μL10 μL
Oligo R12.5 μL12.5 μL
Oligo F12.5 μL12.5 μL
Phusion polymerase1.5 μL1.5 μL
H2O181 μL181 μL

PCR temperatures, 25 cycles:

StepTemperature (°C)Time
Initialization982 min
Denaturation9820 s
Annealing50, 55, 60, 65??
Extension7245 s
Final elongation727 min

We made a mistake preparing the FAO1-PCR1 adding the wrong template, so we do not expect the correct FAO11-PCR1 product.

EaDAcT Transcriptional Unit (TU) transformation

Using an electrocompetent E. coli strain (DH5α) and 1.5 ul ligation (P35s:EaDAcT:T35s in 2Ω2), the mix is electroporated at 1500 V. Then, 300 μL of SOC are added and stored at 37°C with agitation.


07/30/2014

Transform P35s:AtrΔ11:T35+P35s:HarFAR:T35 and P35s:EaDAcT:T35s (in 2α2) in Agrobacterium tumefaciens strain C58. Introduce 1 μL of construction in a C58 aliquot. Electroporate at 1440V. Add 500 μL of LB in the LAF. Keep 2 hours in agitation at 28°C. Grow 20 μL and 200 μL in solid medium containing kanamicin and rifampicin. Incubate overnight at 28°C.

Pick colonies of P35s:EaDAcT:T35s in 2Ω2.


08/01/2014

Pick colonies from Agrobacterium tumefaciens and grow them in liquid medium for two days at 28°C. Liquid medium is composed by 5 mL LB, Rif (1:1000) and Kan (1:1000) for α vectors and 5 mL LB, Rif (1:1000) and Spm (1:1000) for Ω vectors.


07/31/2014

Minipreps of yesterday's culture were made, obtaining the transcripional unit: P35S:EaDAcT:T35S in 2Ω2

Additionally, we recultured in petri dish with its respective antibiotic (Spm).

Digestions in silico made for checking minipreps:

Pieces/TURestriction enzymeExpected bands
P35S:EaDAcT:T35S in 2Ω2NcoI8806, 390
EcoRV6652, 1044, 817, 683

Digestion mixes:

  • Master mix for EcoRV:
    • 3 μL EcoRV
    • 15 μL Red buffer
    • 126 μL H20
  • Master mix for NcoI:
    • 1.5 μL NcoI
    • 7.5 μL Tango buffer
    • 63 μL H2O

Note: We made master mixes because digestions were made simultaneously with the trichome promoter part.

An agarose gel was made to check the transcriptional unit.

Minipreps of P35s:EaDAcT:T35s in 2Ω2 (1) went correctly.

Miniprep results were quantified and then adjusted at 75 ng/μL:

Pieces/TUTubeConcentration (ug/μL)Initial volume (μL)Final Volume (μL)
P35S:EaDAcT:T35S in 2Ω2(1)141.43531
P35S:EaDAcT:T35S in 2Ω22)3.933(Discarded)

Ligation of P35s:EaDAcT:T35s in 2Ω2 with P35s:AtrΔ11:T35+P35s:HarFAR:T35 in 2Ω1.

  • 1 μL P35s:AtrΔ11:T35+P35s:HarFAR:T35 in 2Ω1
  • 1 μL P35s:EaDAcT:T35s in 2Ω2
  • 1 μL 2α1
  • 1 μL BsaI
  • 1 μL T4 ligase
  • 1 μL ligase buffer
  • 4 μL H20

08/04/2014

Transformation of P35s:EaDAcT:T35s in 2Ω2 P35s:AtrΔ11:T35+P35s:HarFAR:T35 in E. coli.

Agrobacterium liquid cultures (5 mL LB)

  • P35s:GFP:p19:Tnos (Spm, Tet, Rif)
  • Empty C58 Agrobacterium tumefaciens (Rif)
  • 2x P35s:EaDAcT:T35s in 2α2 (Rif, Kan)
  • 2x P35s:AtrΔ11:T35+P35s:HarFAR:T35 in 2Ω1 (Rif, Spm)

08/05/2014

Pick colonies from P35s:AtrΔ11:T35+P35s:HarFAR:T35+P35s:EaDAcT:T35s in 2α1.

Repeat PCR of FAO1.

  • FAO1-PCR1: 3 reactions at different temperatures (54, 59, 64°C)
    • 1.75 μL Candida tropicalis genomic
    • 35 μL HF buffer (5x)
    • 7 μL dNTPs
    • 8.75 μL oligo forward (Jul07)
    • 8.75 μL oligo reverse (Jul08)
    • 1.05 μL Phusion polymerase
    • 112.7 H20

PCR temperatures, 35 cycles:

StepTemperature (°C)Time
Initialization982 min
Denaturation9810 s
Annealing54, 59, 6455 s
Extension7255 s
Final elongation727 min
  • FAO1-PCR2: touchdown PCR
    • 0.5 μL Candida tropicalis genomic
    • 10 μL HF buffer (5x)
    • 2 μL dNTPs
    • 2.5 μL oligo forward (Jul09)
    • 2.5 μL oligo reverse (Jul10)
    • 0.5 μL Phusion polymerase
    • 32 μL H20

PCR temperatures, 35 cycles:

StepTemperature (°C)Time
Initialization985 min
Denaturation9810 s
Annealing69.5 (descending 0.5 per cycle) 20 s
Extension7255 s
Final elongation727 min

It is not working yet. For the next time we are going to repeat the dilutions in case they weren't correctly done.


08/06/14

Minipreps of yesterday's culture were made:

  • TU AtrΔ11 + TU HarFAR + TU EaDAcT

Additionally, we made Agrobacterium' culture minipreps using a different kit (We used the QIAgen Miniprep kit 250, 27106)

  • TU AtrΔ11 + TU HarFAR in 2Ω1
  • P35S:EaDAcT:T35S in 2Ω2

FAO1 PCR was repeated (this time using a different primers aliquot).

  • FAO1-PCR1:
    • 0.5 μL Candida tropicalis genomic
    • 10 μL HF buffer (5x)
    • 2 μL dNTPs
    • 2.5 μL oligo forward (Jul07)
    • 2.5 μL oligo reverse (Jul08)
    • 0.5 μL Phusion polymerase
    • 32 μL H20
  • FAO2-PCR1:
    • 0.5 μL Candida tropicalis genomic
    • 10 μL HF buffer (5x)
    • 2 μL dNTPs
    • 2.5 μL oligo forward (Jul09)
    • 2.5 μL oligo reverse (Jul10)
    • 0.5 μL Phusion polymerase
    • 32 μL H20

PCR temperatures, 35 cycles:

StepTemperature (°C)Time
Initialization982 min
Denaturation9810 s
Annealing59 (PCR1)/ 64 (PCR2) (descending 0.5 per cycle) 20 s
Extension7255 s
Final elongation727 min

Digestions made in silico to check minipreps:

E. coli

Pieces/TUResriction enzymesBufferExpected Bands
TU AtrΔ11+ TU HarFAR + TU EaDAcT in 2α1EcoRIOrange7428, 6323
TU AtrΔ11+ TU HarFAR + TU EaDAcT in 2α1BglIIOrange11175, 2576

A. tumefaciens

Pieces/TUResriction enzymesBufferExpected Bands
TU AtrΔ11 + TU HarFAR in 2Ω1EcoRVRed9307, 2251
TU AtrΔ11 + TU HarFAR in 2Ω1BamHIGreen6652, 4906
TU EaDAcT in 2α2EcoRVRed8021, 683
TU EaDAcT in 2α2HindIIIRed6322, 2382

Digestion master mixes:

  • Master mix for NotI:
    • 2.5 μL NotI
    • 12.5 μL Orange buffer
    • 105 μL H20
  • Master mix for RsaI:
    • 2 μL NcoI
    • 10 μL Tango buffer
    • 84 μL H2O

Note: We made master mixes because digestions were made simultaneously with the switch part.

We made different mixes for Agrobacterium samples because we think that minipreps are not as good as it is expected.

  • Agrobacterium sample mix:
    • 0.5 μL Restriction enzyme
    • 2.5 μL Buffer
    • 5 μL Miniprep sample
    • 17 μL H2O

Digestions in A. tumefaciens.

FAO1 PCR product.

All digestions and TU AtrΔ11+ TU HarFAR + TU EaDAcT in 2α1 were correct. PCR products were not correct or absent again.

As digestions were correct, we recultured Agrobacterium in new media (LB) in order to have cultures in exponential phase for tomorrow. We mix in each tube 5 mL of LB with 40 μL of inoculum, XGal (2:1000), IPTG (1:1000)and the corresponding antibiotic (1:1000).

CultureAntibiotic
P35:GFP:P19:TNosSpm, Tet, Rif
Agrobacterium (as a control)Rif
P35S:EaDAcT:T35S Rif, Kan
P35S:AtrΔ11:T35S + P35S:HarFAR:T35SRif, Spm

Recultured media was grown at 28 °C overnight (around 16 h).


08/07/2014

Agroinfiltration in Nicotiana benthamiana.

  • Agrobacterium control culture and P35s:GFP:P19:Tnos (x2 forth true leaves)
  • TU AtrΔ11+TU HarFAR and P35s:GFP:P19:Tnos (x2 forth true leaves)
  • TU AtrΔ11+TU HarFAR and TU EaDAcT and P35s:GFP:P19:Tnos (x2 forth true leaves)

Agroinfiltration protocol consists of:

  • Centrifuge the cultures 15 min 3000 rpm and discard supernatant.
  • 5 mL of agroinfiltration solution per culture. 100 mL of agroinfiltration solution were composed of 10 mL MES 100mM (pH 5.6), 1 mL MgCl2 1M and 100 μL acetosyringone solution 200 mM (19.62 mg, DMSO 500 μL; prepare freshly). Mix it with the vortex. If the culture is still turbid, add a bit more of agroinfiltration sollution. Put it in the (rodillos) for two hours.
  • Measure the OD. The optimum OD for agroinfiltration is 0.2. If it is too high adjust the concentration with more agroinfiltration solution.
  • Mix the cultures, keeping all of them in the same proportions.
  • Proceed to agroinfiltration.

08/08/2014

In order to have a control for the FAO1 PCR, which hasn't been very successful, Jesús Muñoz provided us with 4 primers and 2 clones of Candida tropicalis (C981 ng/μL and pYEP C98 28.2 ng/μL). These primers amplify for the gene HSR1.

Name Sequence Tm
HSR1 RTRv+1149TTTGTCTTGCAACAGGTCCA56°C
HSR1 clone Fw+1 ATGAGTAAGAAAAGCAACAGTACC54°C
HSR1 fw-BamHI+480GCTGGATCCTTAGTAGTAGTGGATCAAGGAAT49°C (annealing)
HSR1 clone RV+stopCTAATTTTCTTCTTTTTCAATAGTAACTATCC51°C

Possibility of primer combinations

AHSR1 fw-BamHI+480HSR1 RTRv+114968749°C
CHSR1 clone Fw+1HSR1 clone RV+stop2187-
BHSR1 RTRv+1149HSR1 clone Fw+1 116854°C

We amplified the genomic of C. tropicalis and the two clones (C98 and C98 pYep)with the primer combinations A and B with Taq polymerase at 2 different temperatures (49 and 52°C). C primer combination was not used due to the length of the spected band.

PCR parameters

  • 94°C, 3 min
  • 35 cycles
    • 94°C, 30 s
    • 49 or 52°C, 15 s
    • 72°C, 90 s
  • 72°C, 7 min

PCR products were not present. It probably did not work because we added to much buffer.


08/11/2014

We obtained a different plasmid (pUbiquitina HSRI-CDS col.6) as a positive control of PCR to check the quality of our Candida genome. We diluted them to obtain a final concentration of 30 ng/μL.

PCRs wih Taq polimerase:

  • 1 μL Template
  • 1.5 μL dNTPs
  • 1 μL Forward primer
  • 1 μL Reverse primer
  • 1 μL Taq pol.
  • 5 Buffer 10X
  • 39.5 μL H2O
PCRTemplateF primerR primer
1pUbiquitina HSRI-CDS col.6HSR1 BamHI + 480HSR1 RTRev + 1149
2pUbiquitina HSRI-CDS col.6HSR1 RTRv + 1149HSR1 Fw + 1
3C. tropicalis genomeHSRI-CDS col.6HSR1 BamHI + 480HSR1 Rtrev + 1149
4C. tropicalis genomeHSR1 RTRv + 1149HSR1 Fw + 1

PCR conditions:

  • 94°C 3 min
  • 35 cycles
    • 94°C 30 s
    • 49°C 15 s
    • 72°C 90 s
  • 72°C 7 min

We had amplification in our positive controls. Our C. tropicalis genome may be wrong. Therefore Jesús Muñoz provided us with a new Candida tropicalis (NCYC 2512) culture and also a culture from a Candida tropicales genoteque made in E. coli.


08/12/2014

PHEROMONE ANALYSIS


PONER ENLACE DE LA WIKI

To begin with samples were obtained from the agroinfiltrated plants after 5 days. We collected 9 samples:

  • 2 leaves from P35s:GFP:P19:Tnos
  • 2 leaves from TU AtrΔ11+TU HarFAR and P35s:GFP:P19:Tnos
  • 2 leaves from TU AtrΔ11+TU HarFAR and TU EaDAcT and P35s:GFP:P19:Tnos
  • 1 leaf from a wild type plant

Each sample was stored in a vial and kept in liquid nitrogen. Leaves were mashed using a mortar and liquid nitrogen until powder from each leaf is obtained and stored in a vial .Samples must be always kept in liquid nitrogen or in a -80°C freezer . Afterwards the leaf powder was weighted and introduced in a 10 mL screwcap headspace vial.

  • 94,6 mg of P35s:GFP:P19:Tnos leaf (replica 1)
  • 97,0 mg of TU AtrΔ11+TU HarFAR and P35s:GFP:P19:Tnos leaf (replica 2)
  • 118,7 mg of TU AtrΔ11+TU HarFAR and TU EaDAcT and P35s:GFP:P19:Tnos leaf (replica 1)
  • 100,0 mg of wild type leaf

Then 150 μL of EDTA 500mM and 1 mL of a saturated solution of CaCl2 (5,7M) were added to each vial.

EDTA 500mM preparation:

Stock of solid EDTA Di-Sodium 372,24 Mw and a final solution of 50 mL, 500mM. 372,24*0,5*0,05=9,306 g in 50 mL.


PONER NOMBRE DEL PARATO


PONER LOS PASOS QUE SIGUE EL PARATO, provided by JOSE LUIS MAS ADELANTE

Analysis was performed overnight


08/13/2014

First results of the analysis were obtained. The analysis proved that our plant was successfuly producing the desired pheromones in high concentration. As expected z-11-hexadecen-1-ol and z-11-hexadecen-1-ol acetate were being produced and also unexpectedly the z-11-hexadecenal.

As shown in the figure, the leaf agroinfiltrated with TU AtrΔ11+TU HarFAR and P35s:GFP:P19:Tnos (represented in black) shows a successful production of (Z)-11-hexadecen-1-ol compared with the negative control that only has P35s:GFP:P19:Tnos (represented in blue) and shows no expression.

In this figure, expression of (z)-11-hexadecen-1-ol and (z)-11-hexadecen-1-ol acetate is proved. The expression in the leaf infiltrated with TU AtrΔ11+TU HarFAR and TU EaDAcT and P35s:GFP:P19:Tnos is represented in black, and the negative control with P35s:GFP:P19:Tnos is represented in blue.

In this figure, an unexprected peak present in the leaf infiltrated with TU AtrΔ11+TU HarFAR and P35s:GFP:P19:Tnos (black) can be observed. Comparing its spectrum with the one provided from the database seems to be (z)-11-hexadecena, a desired pheromone, which is being produced by the plant itself using an endogenous alcohol oxidase. Nevertheless as it is produced with a low yield, the FAO1 of C. tropicalis search is still in progress.

The rest of the samples were prepared for the GC-MS analysis.

The samples were weighted, introduced in the vial and added with EDTA and CaCl2.

  • 94,0 mg of P35s:GFP:P19:Tnos leaf (replica 2)
  • 102,4 mg of TU AtrΔ11+TU HarFAR and P35s:GFP:P19:Tnos leaf (replica 1)
  • 92,0 mg of TU AtrΔ11+TU HarFAR and TU EaDAcT and P35s:GFP:P19:Tnos leaf(replica 2)

Results of the replicae analysis are shown below:

In this replica, the sample with the TU AtrΔ11+TU HarFAR and P35s:GFP:P19:Tnos construction shows a huge production of (z)-11-hexadecen-1-ol.

In this replica, the sample with the TU AtrΔ11+TU HarFAR and TU EaDAcT and P35s:GFP:P19:Tnos shows a higher abundance of (z)-11-hexadecen-1-ol and z-11-hexadecen-1-ol acetate.

In order to verify that the analysed compounds are the desired pheromones, we acquired standards for (z)-11-hexadecen-1-ol and (z)-11-hexadecen-1-ol acetate and (z)-11-hexadecenal, and indeed, the analysed compunds were the right ones.


08/14/2014

We had problems to amplify the FAO1 gene, so in order to obtain it we performed a colony PCR. Using this method, it is possible to amplify a fragment directly from a colony rather than a DNA sample.

We made two different PCRs, one of them as a positive control and the other one to amplify our disered DNA fragment.

Colony PCR protocol (Taq Polimerase):

  • 1 colony (C. tropicalis)
  • 1.5 μL dNTPs
  • 1 μL Forward Primer
  • 1 μL Reverse Primer
  • 1 μL Taq Polimerase
  • 5 μL Buffer 10X
  • 39.5 μL H2O miliQ

Primers used as a control: HSR1 + 480 and RTRv + 1149.

Primers used to amplify FAO1 gene: iGEMJUL07_FAO1_1F and iGEMJUL08_FAO1_1R.

Thermocycler conditions, 35 cycles:

StepTemperature (°C)Time
Initialization943 min
Denaturation9430 s
Annealing4915 s
Extension721 min
Final elongation727 min

Starting from an agar plate containing a Candida gene bank, we add 1 mL of LB medium and we mix it. Then, the mix was transferred into a tube. We stored in glycerine part of the culture and 200 μL were mixed with 5 mL of LB media and Amp (2:1000).

The tube containing the gene bank was grown at 28ºC for 1 hour. Then, we made minipreps.

The electrophoresis gel shows that the colony PCR failed, even the control did not work. Additionally, we test the BbsI restriction enzyme and we found that it does not cut well.


08/15/2014

We transformed the whole pathway (P35S:AtrΔ11:T35S, P35S:HarFAR:T35S, P35S:EaDAcT:T35S in 2α1) into Agrobacterium tumefaciens (C58) and we cultured it in solid media with Kan (1:1000)and Rif (1:1000) during 2 days at 28º C.


08/17/2014

We made ligations of the three enzymes that form the (Z)11-16:OAc (Z11-hexadecenyl acetate) pheromone but this time each TU will contain the trichome promoter.

Note: For further information about the PCPS2 promoter, please check the trichome promoter section.

Ligation reagents:

  • PCPS2:AtrΔ11:T35S
    • 1 μL PCPS2
    • 1 μL T35S
    • 1 ul AtrΔ11
    • 1.5 μL 2α1
    • 1 μL Buffer ligase 10X
    • 1 μL T4
    • 1 μL BsaI
    • 2.5 μL H2O
  • PCPS2:HarFAR:T35S and PCPS2:EaDAcT:T35S
    • 1 μL PCPS2
    • 1 μL T35S
    • 1 ul AtrΔ11/EaDAcT
    • 1 μL 2α2
    • 1 μL Buffer ligase 10X
    • 1 μL T4
    • 1 μL BsaI
    • 3 μL H2O

08/18/2014

We repeated the colony PCR to obtain FAO1 gene and also control PCRs (using the gene bank minipreps made on 08/14/2014).

PCR conditions:

  • Colony PCR 1 (control):
    • 1 colony (C. tropicalis)
    • 1 μL dNTPs
    • 1 μL HSR1 BamHI + 480
    • 1 μL HSR1 RTRv + 1149
    • 1 μL Tap pol.
    • 5 μL Buffer 10x
    • 39 μL H2O miliQ
  • Colony PCR 2:
    • 1 colony (C. tropicalis)
    • 1 μL dNTPs
    • 1 μL iGEMJul09
    • 1 μL iGEMJul10
    • 1 μL Tap pol.
    • 5 μL Buffer 10x
    • 39 μL H2O miliQ
  • Gene bank PCR 3 (control):
    • 1 μL C. tropicallis gene bank miniprep
    • 1 μL dNTPs
    • 1 μL HSR1 BamHI + 480
    • 1 μL HSR1 RTRv + 1149
    • 1 μL Tap pol.
    • 5 μL Buffer 10x
    • 39 μL H2O miliQ
  • Gene bank PCR 4:
    • 1 μL C. tropicallis gene bank miniprep
    • 1 μL dNTPs
    • 1 μL iGEMJul09
    • 1 μL iGEMJul10
    • 1 μL Tap pol.
    • 5 μL Buffer 10x
    • 39 μL H2O miliQ

PCR conditions were the same as those used on 08/14/2014

TU containing the trichome promoter were transformed into E. coli.

  • PCPS2:AtrΔ11:T35S
  • PCPS2:HarFAR:T35S
  • PCPS2:EaDAcT:T35S

08/19/2014

E. coli colonies containing the TUs were recultured in liquid media:

  • PCPS2:AtrΔ11:T35S in 2α1
  • PCPS2:HarFAR:T35S in 2α2
  • PCPS2:EaDAcT:T35S in 2α2

08/20/2014

We made minipreps of yesterda's culture and to check them we made digestions in silico:

PieceEnzymeExpected bands
PCPS2:AtrΔ11:T35SEcoRV562, 8448
EcoRI2687, 6323
PCPS2:HarFAR:T35SHindIII933, 2140, 6322
EcoRV562, 8833
PCPS2:EaDAcT:T35SHindIII2800, 6322
EcoRV7363, 1197, 562


Trichome promoter


07/03/2014

Genomic DNA extraction from Nicotiana tabacum. We need the genome of this organism because we want to obtain the trichome promoter from the NtCPS2 gene.

  • Obtain 100 mg of the tobacco leaves (5 disks made with a 1.5 mL vial). Made it twice.
  • Introduce the disks inside the tube.
  • Introduce the two tubes in liquid nitrogen.
  • Remove them from the liquid nitrogen and store at -80°C until use.
  • Remove one tube from -80°C and re-introduce them in liquid nitrogen.
  • Grind the disks.
  • Add 600 μL of CTAB (2%) buffer (pre-heat at 65°C.)
  • Grind the mixture.
  • Add RNAse (1.6 μL at M = 100 ug/μL for each mL of CTAB buffer).
  • Vortex it and maintain at 65°C for 45 min. Mix it by inversion 5-15 min.
  • Add 600 μL cloroform:isoamilic alcohol. Vortex it.
  • Centrifuge 15 min at 13000 rpm (or 10 min at 14500 rpm.
  • Recover the supernatant by aspiration (with a 200 μL pipet).
  • Repeat the last three steps.
  • Add one volume o isopropanol and mix well by inversion (10 times).
  • To precipitate, maintain 20 min on ice or at -80°C during 5 min.
  • Centrifuge 10 min at 13000 rpm (4°C).
  • Discard the supernatant by decantation (be carefull with the pellet).
  • Wash with 600 μL ethanol (80%).
  • Centrifuge 5 min at 13000 rpm.
  • Discard the ethanol by pipeting and let it dry a few minutes.
  • Resuspend it in 50-100 μL H2O miliQ or with TE buffer.
  • Store at -20°C.

Measurement of genomic concentration with nanodrop.

  • Tabacco 1: 182 ng/μL (Thrown away)
  • Tabacco 2: 620 ng/μL (Stored at -20°C)

Electrophoresis performed to check the genomic size of tobacco (to see if it is degradated).

It is correct.


07/10/2014

PCR of genomic extraction of tobacco in order to amplify the trichome promoter CPS2.

Ordered primers

  • IGEMJULO1
  • IGEMJULO2

Ajust primers to a 100 uM concentration:

  • IGEMJUL01 + 566 μL miliQ H2O
  • IGEMJUL02 + 691 μL miliQ H2O

Use a 1:10 alicuot for PCR (10 uM).

Reagents needed for PCR:

  • 0.5 μL template
  • 10 μL buffer HF 5x
  • 2 μL dNTPs
  • 2.5 μL oligo R
  • 2.5 μL oligo F
  • 0.5 μL Pfu
  • 32 μL miliQ H2O

Final volume: 50 μL

Parameters:

  • 98 °C (2 min)
  • 35 cycles
    • 98 °C (10 sec)
    • 59 °C (15 sec)
    • 72 °C (45 sec)
  • 72 °C (7 min)

We didn't get PCR product.


07/11/2014

Repeat PCR with different parameters.

1 2 3 4 5
Template0.5 μL0.5 μL0.5 μL0.5 μL0.5 μL
Buffer (5x)0.5 μL0.5 μL0.5 μL0.5 μL0.5 μL
dNTPs2 μL2 μL2 μL2 μL2 μL
Oligo R2.5 μL2.5 μL2.5 μL2.5 μL2.5 μL
Oligo F2.5 μL2.5 μL2.5 μL2.5 μL2.5 μL
Phu0.5 μL0.5 μL0.5 μL0.5 μL0.5 μL
Buffer32 μL32 μL32 μL32 μL32 μL

1, 2 and 5 contain buffer F; 3 and 4 contain buffer GC.

PCR parameters

  • 98 °C (2 min)
  • 35 cycles
    • 98 °C (10 sec)
    • 1, 3, 5 -> 59 °C (15 sec). 2, 4 -> 55 °C (15 sec)
    • 72 °C (45 sec)
  • 72 °C (7 min)

No PCR products again.

Repeat PCR again with other parameters.

Buffer HF Buffer GC
Template2 μL2 μL
Buffer (5x)40 μL40 μL
dNTPs8 μL8 μL
Oligo R10 μL10 μL
Oligo F10 μL10 μL
Phu22 μL μL
Buffer128 μL128 μL

Set 4 tubes with each buffer at different temperatures: 49, 52, 55, 60.

  • 98 °C (2 min)
  • 35 cycles
    • 98 °C (10 sec)
    • 49, 52, 55, 60 °C (15 sec)
    • 72 °C (45 sec)
  • 72 °C (7 min)

No PCR products again.


07/14/2014

Repeat PCR again with more genomic.

Buffer HF Buffer GC
Template5 μL5 μL
Buffer (5x)50 μL50 μL
dNTPs10 μL10 μL
Oligo R12.5 μL12.5 μL
Oligo F12.5 μL12.5 μL
Phu2.5 μL2.5 μL
Buffer107.5 μL107.5 μL

Same parameters as before except annealing temperatures which are: 50, 53, 57, 59 °C.

We still without having any amplification.


07/18/2014

Repeat the PCR with other enzyme.

  • 12.5 μL Q5 Master mix (2x).
  • 1.25 μL forward primer 10 uM
  • 1.25 μL reverse primer 10 uM
  • 0.5 μL template 620 ng/μL
  • 9.5 μL H2O

Set 4 reactions at 50, 53, 55, 59 °C.

  • 98 °C (30 sec)
  • 35 cycles
    • 98 °C (10 sec)
    • 50, 53, 55, 59 °C (15 sec)
    • 72 °C (45 sec)
  • 72 °C (2 min)

The DNA fragment of interest is around 1.5 kb so we see we finally obtained amplification at 55 and 59 °C reactions.


07/19/2014

Trichome promoter PCR product ligation in pUPD.

  • 1 μL pUPD
  • 1 μL PCR product
  • 1 μL BsmBI (5-10 ud)
  • 1 μL T4 ligase (5-10 ud)
  • 1.2 μL buffer ligase (3 ud)
  • 6.8 μL H20

Set the reaction: 25 cycles x (37°C 2 min, 16°C 5 min).


07/20/2014

Transform and grow in Petri dishes yesterday's ligation of the trichome promoter in pUPD.


07/21/2014

We picked colonies of the trichome promoter in pUPD and grown it in liquid culture.


07/22/2014

We made minipreps of yesterday's liquid culture. Additionally, we have recultured them in solid growth media.

Miniprep quantification:

PieceTubeConcentration (ng/μL)Volume (μL)
Trichome promoter in pUPD1317.126
Trichome promoter in pUPD3354.832

Both minipreps were adjusted to 75 ng/μL.

Digestions in silico performed to check the insertion:

PieceRestriction enzymeExpected bands
Trichome Promoter in pUPDNotI2981, 1523
EcoRV3942, 562

Note: To see further details of digestion master mixes, go to the biosynthesis part, date 07/22/2014.

Pieces taken from the GoldenBraid 2.0 collection were cultured in solid growth media:

  • pTnos (GB0037)
  • pGFP (GB0059)
  • pLuciferase (GB0096)

07/23/2014

Yesterday's digestions were correct, so the trichome promoter in pUPD was send to sequencing.

We picked colonies from pTnos, pGFP and pLuciferase.


07/24/2014

Results of sequencing the promoter were obtained:

MutationPosition
T insertion??
T insertion??

Minipreps of pTnos, pGFP and pLuciferase.


07/28/2014

PieceConcentration (ng/μL)Initial Volume (μL)Final Volume (μL)
GFP318.835148.8
Tnos400.835186.5
pLuciferaseNotI2981, 1731

See master mix and gel digestion in Biosynthesis part. Pieces were obtained correctly and adjusted to 75 ng/μL.

The following table shows ligation details of the trichome promoter:

ReagentVolume
CPS21 μL
GFP1 μL
TNos1 μL
BsaI1 μL
p2α21 μL
T4 ligase1 μL
Ligase buffer1 μL
H2O3 μL
Total Volume10 μL

07/29/2014

Trichome Promoter transformation in E. coli.

Using an electrocompetent E. coli strain (DH5α) and 1.5 ul ligation (CPS2:GFP:TNos in 2α2), the mix is electroporated at 1500 V. Then, 300 μL of SOC are added and stored at 37 °C with agitation.


07/30/2014

Pick colonies of CPS2:GFP:TNos in 2α2.


07/31/2014

Minipreps of yesterday's culture were made, obtaining the transcripional unit: PCPS2:GFP:TNos in 2 α2

Additionally, we recultured in petri dish with its respective antibiotic (Kan).

Digestions in silico made for checking minipreps:

Pieces/TURestriction enzymeExpected bands
CPS2:GFP:TNos in 2α2HindIII6322, 2694
EcoRV8454, 562

Digestion mixes:

  • Master mix for EcoRV:
    • 3 μL EcoRV
    • 15 μL Red buffer
    • 126 μL H20
  • Master mix for HindIII:
    • 2 μL HindIII
    • 10 μL Red buffer
    • 84 μL H2O

Note: We made master mixes because digestions were made simultaneously with the biosynthesis part.

An agarose gel was made to check the transcriptional unit:

Minipreps of CPS2:GFP:TNos in 2α2 (1) went correctly.

Miniprep results were quantified and then adjusted at 75 ng/μL:

Pieces/TUTubeConcentration (ug/μL)Initial volume (μL)Final Volume (μL)
PCPS2:GFP:TNos in 2α21128.53356.5
PCPS2:GFP:TNos in 2α22135.93461.6
PCPS2:GFP:TNos in 2α23126.23558.9

08/05/2014

Transcriptional Unit (TU) PCPS2:GFP:TNos in 2α2 was transformed in Agrobacterium tumefaciens (C58) and cultured in liquid media with Kan and Rif at 1:1000 (2 days at 28°C).

Note: The scientific name has been updated to Rhizobium radiobacter.


08/08/2014

The TU (PCPS2:GFP:TNos) was recultured in liquid media. Additionally, P35S:GFP:p19:TNos TU was recultured in liquid media, using Spm and Rif as antibiotics.


08/11/2014

Agrobacterium cultures were refreshed in new liquid media. Additionally, we cultured them in solid media.

Minipreps of the TU PCPS2:GFP:TNos in Agrobacterium were made. and digestions were performed to check they were correct.

Digestions in silico performed to check the insertion:

Restriction enzymeExpected bands
HindIII6322, 2694
EcoRV8454, 562

PCPS2:GFP:TNos (1) digestion was correct.


08/12/2014

A part containing P35S:P19:TNos construction was taken from the GoldenBraid collection (GB108) and cultured in solid media with Kanamycin 50 mg/mL. This part is not going to be used as a control but as a silencing supressor.


08/13/2014

One clony (P35S:P19:TNos) was recultured in liquid media.


08/14/2014

Minipreps and streaks of yesterday's culture were made.

The piece was checked by running a gel containing the digested fragment.

Digestions made in silico:

PieceRestriction enzymeExpected bands
P35S:P19:TNosBanI4256, 392
HindIII788, 1287, 2563

The GB108 piece (P35S:P19:TNos) is digested as expected in silico.


08/15/2014

We transformed the piece(P35S:P19:T35S) into Agrobacterium tumefaciens (C58) and we cultured it in solid media with Kan (1:1000) and Rif (1:1000) at 28º C during 2 days.


08/17/2014

Agrobacterium containing the piece has not growm well, so we transformed the piece again and we cultured it in an agar plate following the same protocol as previously. In the mean time, we made agar plates.


08/19/2014

Agrobacterium has not grown in agarose plates, so we made a transformation again.



Switch


07/04/2014

Adquisition of S. cerevisiae genomic DNA. (5 μL, stored in the fridge)


07/28/2014

We had the genome of S. cerevisiae, needed to extract the target genes that are going to be used to build the switch. However we finally used our genome extraction (see Biosynthesis part, date 07/23/2014 for further details).

Previously we have designed a cupple of primers to amplify the CUP1 and CUP2 genes present in the yeast.

PCR reaction reagents:

ReagentCUP1-PCR1CUP2-PCR2
Template0.5 μL0.5 μL
Buffer HF (5X)10.0 μL10.0 μL
dNTPs2.0 μL2.0 μL
Oligo R (JUL06)2.5 μL2.5 μL
Oligo F (JUL05)2.5 μL2.5 μL
Phusion polymerase0.5 μL0.5 μL
H2O32.0 μL32.0 μL

Annealing temperature: both 61 °C

PCR products were checked using an electrophoresis. Expected bands:

  • CUP1-PCR1: 386 bp
  • CUP2-PCR2: 348 bp

Both PCR products were correct.


07/30/2014

We repeated the PCR because we had to purify the bands CUP1-PCR1 and CUP2-PCR2.For this purpose we used the kit "QIAEX II Gel Extraction Kit".

Ligation of both parts of CUP2.

  • 1 μL CUP1-PCR1
  • 1 μL CUP1-PCR1
  • 1 μL pUPD
  • 1 μL BsmBI
  • 1 μL T4 ligase
  • 1 μL ligase buffer
  • 4 μL H20

07/31/2014

CUP2 was transformed in pUPD and cultured in solid media (37°C).


08/04/2014

Grow the piece corresponding to Gal4 Activation Domain (GB0095) from the GB collection in solid medium.


08/05/2014

Pick colonies from CUP2 (3 colonies) and Gal4AD (1 colony).


08/06/14

Minipreps of yesterday's culture were made:

  • Gal4AD
  • CUP2

Digestions made in silico in order to check transcriptional units:

Pieces/TUResriction enzymesBufferExpected Bands
CUP2 in pUPDNot1Orange2981, 752
CUP2 in pUPDRsaITango2457, 1276
Gal4AD in pUPDNot1Orange2981, 330
Gal4ADPuuIRed2215, 1096

CUP2 in pUPD is correct. RsaI restriction enzyme does not cut properly, as a result we obtained different bands from those ones expected.

Gal4AD piece is correct.


08/11/2014

Sequencing results of CUP2 piece were finally received and they were correct.

As the sequence was correct, we could continue with ligations.

Quantification

  • CUP2: 110.3 ng/μL
  • Gal4: 221.4 ng/μL

Samples were diluted to 75 ng/μL.

The following ligations were made:

  • P35S:CUP2:Gal4AD:T35S
    • 1 μL P35S
    • 1 μL CUP2
    • 1 μL Gal4AD
    • 1 μL T35S
    • 1 μL BsaI
    • 1 μL T4 ligase
    • 1 μL Buffer ligase
    • 1 μL 2α2 vector
    • 2 μL H2O
  • PCPS2:CUP2:Gal4AD:T35S
    • 1 μL PCPS2
    • 1 μL CUP2
    • 1 μL Gal4AD
    • 1 μL T35S
    • 1 μL BsaI
    • 1 μL T4 ligase
    • 1 μL Buffer ligase
    • 1 μL 2α2 vector
    • 2 μL H2O

08/12/2014

E. Coli transformation with the previous ligations and culture in solid medium (LB-agar with Kanamycin and X-Gal + IPTG) overnight.


08/13/2014

We recultured yesterday's colonies in liquid media with the same antibiotic (Kan) and X-Gal.

  • P35S:CUP2:Gal4AD:T35S in 2α2 (3 colonies)
  • PCPS2:CUP2:Gal4AD:T35S in 2α2 (3 colonies)

08/14/2014

Minipreps of yesterday's culture and streakes were made.

Digestions made in sililco to chceck the TU:

Pieces/TUResriction enzymesBufferExpected Bands
PCPS2:CUP2:Gal4AD:T35SHindIIIRed6322, 2641
EcoRVRed562, 8401
P35S:CUP2:Gal4AD:T35SHindIIIRed6322, 2223
BclIGreen476, 7137, 932

The agarose gel shows that P35S:CUP2:Gal4AD:T35S piece is not well build. Nevertheless, PCPS2:CUP2:Gal4AD:T35S piece is OK.


08/15/2014

P35S:CUP2:Gal4AD:T35S digestions made yesterday were repeated as follows:

Pieces/TUResriction enzymesBufferExpected Bands
P35S:CUP2:Gal4AD:T35SHindIIIRed6322, 2223
NotIGreen5723, 1290, 1532

After running the electrophoresis, the resulting bands show that there is something more than expected in the plasmid. Furthermore, we check that the extra part has been added in the part region. Ligation step has to be repeated.


08/17/2014

We repeated the P35S:CUP2:Gal4AD:T35S ligation.

Ligation reagents:

  • P35S:CUP2:Gal4AD:T35S:
    • 1 μL PCPS2
    • 1 μL T35S
    • 1 ul Gal4AD
    • 1 μL 2α2
    • 1 μL CUP2
    • 1 μL Buffer ligase 10X
    • 1 μL T4
    • 1 μL BsaI
    • 2 μL H2O

08/18/2014

TU piece was transformed in E. coli (P35S:CUP2:Gal4AD:T35S) and cultured in solid media.


08/19/2014

E. coli colonies containing the TU (P35S:CUP2:Gal4AD:T35S in 2α2) were recultured in liquid media.


08/20/2014

PieceEnzymeExpected bands
P35S:CUP2:Gal4AD:T35SHindIII6322, 2223
NcoI8155, 390



Biosafety


07/22/2014

Pieces taken from the GoldenBraid 2.0 collection were cultured in solid growth media:

  • P35S:Rosea:TNos
  • TA29:Barnase:TNos (from GoldenBraid 1.0 collection)

We were told by our advisor that Rosea produces necrosis in N. benthamiana, so we must think of an alternative.


07/23/2014

We picked colonies from P35S:Rosea:TNos and TA29:Barnase:TNos.


07/24/2014

Minipreps of P35S:Rosea:TNos and TA29:Barnase:TNos.


07/25/2014

Digestions in silico made for checking yesterday's minipreps:

PiecesRestriction enzymeExpected bands
P35S:Rosea:TnosBglII2495, 2302
NcoI4407, 390
TA29:Barnase:TnosBglII2825, 2245

07/28/2014

See master mix and gel digestion in Biosynthesis part. Pieces were obtained correctly and adjusted to 75 ng/μL.


07/31/2014

We talked with the NRP-UEA-Norwich team. We stablished a possible collaboration in developing the biosafety module together. They could send us their chromoproteins and we could send them our barnase and TA29 promoter.


08/05/2014

Order primers for TA29 and barnase:

NameSequenceT annealing
I14Ago01_TA29_F1CGCCGTCTCGCTCGGGAGTAGCGAATGCAATTAATTTAGACAT61.8º C
I14Ago02_TA29_R1CGCCGTCTCGCTCGCATTTTTAGCTAATTTCTTTAAGTAAAAACTTTG60.8º C
I14Ago03_barnase_F1CGCCGTCTCGCTCGAATGGCACAGGTTATCAACACG65.0º C
I14Ago04_barnase_R1CGCCGTCTCGCTCGAAGCTTATCTGATTTTTGTAAAGGTCTGATAATG63.4º C

08/07/2014

Primers received. PCR for barnase and TA29 performed.

  • TA29 PCR parameters
    • 98º C, 2 min
    • 35 cycles
    • 98º C, 10 s
    • 60º C, 18 s
    • 72º C, 40 s
    • 72º C, 7 min
  • Barnase PCR parameters
    • 98º C, 2 min
    • 35 cycles
    • 98º C, 10 s
    • 63º C, 18 s
    • 72º C, 40 s
    • 72º C, 7 min

We didn't obtain PCR product. There is a band for the barnase, but it should be around 330 bp.


08/08/2014

We repeat yesterday's PCR with 2 degrees less in the annealing step.

Results obtained are the same of yesterday's. We should think about charging something else.


08/11/2014

The previous PCR was repeated changing the annealing temperature to 61º C.

We still do not get PCR product.


08/12/2014

We forgot to adjust the TA29:Barnase:Tnos from GB 1.0 to 5 ng/μL. Maybe that's why PCRs don't work. We repeated again with the appropiate temperatures (60º C for TA29 and 63º C for barnase), but it still doesn't work!


08/18/2014

We transformed in E. coli the iGEM Barnase part (BBa_1716211), placed in Plate 3, 11o.

?? --> Se puso una PCR o no?

A PCR using Nicotiana tobacum genome as a template was made to obtain the Ta29 fragment. Primers used and also PCR conditions were the same as previous PCRs.


08/19/2014

E. coli colonies containing the iGEM Barnase part were recultured in liquid media.


08/20/2014

We made minipreps of yesterday's culture and to check them we made digestions in silico:

PieceEnzymeExpected bands
BarnaseNotI2046, 357
BamHI1558, 845


Translator to BioBricks


08/07/2014

Ale's primers labeled A11Dic32 and M11Nov12 found.

Run PCR with the following templates and primers:

TemplateForwardReverseExpected lenght
P35siGEMJul11 A11Dic321086 bp
T35sM11Nov12iGEM12Jul284 bp

P35s PCR parameters

  • 98°C, 2 min
  • 35 cycles
    • 98°C, 10 s
    • 67°C, 18 s
    • 72°C, 40 s
  • 98°C, 7 min

T35s PCR parameters

  • 98°C, 2 min
  • 35 cycles
    • 98°C, 10 s
    • 65°C, 18 s
    • 72°C, 40 s
  • 98°C, 7 min

We didn't obtain PCR product.


08/08/2014

We repeat yesterday's PCR with 2 degrees less in the annealing step.

Now there is a band for P35s but it should not be there.


08/11/2014

The previous PCR was repeated changing the annealing temperature to 61°C.

We still do not get PCR product.


08/12/2014

We repeated the PCR once more, this time setting the annealing temperatures at (59°C for T35s and 61°C for P35s).


08/19/2014

We are trying another PCR strategy to obtain the PCR product.

  • PCR1: P35S template (as previously done)
  • PCR2: P35S:AtrΔ11:T35S template
PCRPrimersTm (º C)
1iGEMJul11 and A11Dic3262
2M11Nov12 and iGEMJul1265

We check the PCR products and only the T35S product was amplified correctly (the expected band was around 300 bp).

Additionally, we prepared LB agar.