Team:Paris Bettencourt/Notebook/Eliminate Smell

June

June 11th



Goal: Design plasmids that express agaA construct

Procedure:

Using Geneious, we first created the agaA construct:

• Promoter BBa_J23108 from the Anderson's promoter collection
• RBS from the RBS Calculator of Salis lab specific for E coli
• BioBrick Prefix + Scar from the iGEM Parts webpage
• agaA sequence codon optimized for E coli 12 (IDT online tool). We checked with Generious that there were no restriction sites for EcoRI, SpeI, ZbaI and PstI.
• Histidine tag: 6 Histidines in C-terminal were added
• Stop codon
• BioBrick scar + BioBrick suffix from the iGEM Parts webpage

To amplify this construct, we created two oligos:

Name	Sequence (5'->3')	Notes	Binding position
oPB.001	TATAGAATTCGCGGCCGCTTCTAGAGTGACAGCTAGCTCAGTCCTAGG	agaA forward for BioBrick vector	1->23
oPB.002-BAD PRIMER	GAAGCATCATCACCATCACCACTGATACTAGTAGCGGCCGCTGCAGTTA	agaA REVERSE for BioBrick vector- NOT REVERSED	1272->1296
oPB.005	TTAACTGCAGCGGCCGCTACTAGTATCAGTGGTGATGGTGATGATGCTTC	agaA reverse for BioBrick vector	1272->1296

* We noticed the 16/06/2014 that oPB.002 was NOT reversed and we designed oPB.005

Tip: When creating oligos: we add 4 nt at the beginning and the end composed by AT, to make sure the enzyme will bind properly.

We chose two backbones for the construct:

• pSB1C3 from the iGEM Parts to create a BioBrick.
• pEC-XC99E, a E coli-C glutamicum shuttle plasmid

We designed two plasmids:

1. pPB.001: Biobrick submission of agaA expression construct

1) Plasmid pSB1C3: High copy BioBrick assembly plasmid. Constitutive expression. To use in E coli

2) agaA construct

2.pPB.002:agaA expression construct. Shuttle vector E coli-C glutamicum

June 16th



Goal: Design new reverse oligo for Biobrick construction

Procedure:

We noticed oPB.002 was NOT reverse and therefore could not be used. We created oPB.005 instead:

oPB.005

5'-TTAACTGCAGCGGCCGCTACTAGTATCAGTGGTGATGGTGATGATGCTTC-3'

agaA reverse for BioBrick vector

1272->1296

June 23rd



Goal: PCR agaA gBlock with oPB.001 and oPB.005

Procedure:

June 24th



Goal: PCR purification of the gBlock

Procedure:

Results

Goal:PCR agaA gBlock with oPB.001 and oPB.005

Procedure:

June 25th



Goal: PCR purification of the gBlock

Procedure:

Results:

June 26th



Goal: Obtain pPB.001 (agaA gBlock digestion + ligation)

Procedure:

Goal: Transform E coli with pPB.001

Procedure:

Results:

No colonies grew after 12h. We will leave them in the incubator some more time and repeat the Heat Shock in the meanwhile

June 27th



Goal: E coli transformation with pPB.001

Procedure:

Results:

June 29th



Goal: Start culture to extract plasmid

Procedure:

June 30th



Goal: Miniprep to extract a plasmid (unfinished)

Procedure:

We started a culture on June 29th. We will make a mini prep following the Mini Prep protocol. The aim is to extract the plasmid PSB6A1 to cut it with EcoRI and PstI and see the efficiency of the cut.

Results:

July

July 1st

Goal: PCR purification of the gBlock

Procedure:

July 1st

** pEC-XC99E plasmids (Cm) from the Beilfield iGEM team arrived today. We stored them at 37ºC and Pierre-Luc will make a miniprep tomorrow **

Goal: Obtain pPB.001

Procedure:

Goal: Transform E coli with pPB.001

Procedure:

Results:

July 2nd

Goal: Miniprep to extract pSEVA351 + Glycerol stock

Procedure:

July 7th

1) odor exctraction

Protocol:

Samples: Jalke/Henry/Alexandre cotton pads (of the 01/07)(see sweat collection)
(1) Cut a small piece of sample from Alex (A), put it in an eppendorf tube an add 600ul of PBS.
Vortex during 60 secondes.
Spin 1 minutes at 1000rpm (to put the cotton at the bottom).
Take supernatant with a 1ml syringe
Filter it (0.2ul)

FAILED: Not enought liquid to be used with a 0.20ul filter we've got

(2) Cut a small piece of sample from Alex (A), put it in an eppendorf tube an add 4000ul of water.
Vortex during 60 secondes.
Spin 1 minutes at 1000rpm (to put the cotton at the bottom).
Take supernatant with a 10ml syringe
Filter it (0.2ul)
==> Smell it: The liquid has a very subtil smell (compare with the patch which have a very strong smell) Maybe the patche was too small.

(3)Cut a big piece of sample from Alex (1/4) (A), put it in an eppendorf tube an add 4000ul of water.
Vortex during 60 secondes.
Spin 1 minutes at 1000rpm (to put the cotton at the bottom).
Take supernatant with a 10ml syringe
Filter it (0.2ul)
==> Smell it: The liquid has a very subtil smell (compare with the patch which have a very strong smell). It is very slightly stronger than the (2) but it is not enought.
Results: Sweat filtration doesn't seems to be efficient enough to capture the smell.

July 8th

Goal:
Capture the smell (volatiles compounds) in a patch. This has to be sterile, the odour has to be strong and that can stay for 5 days at least.

Protocol: Samples: Jalke/Henry/Alexandre cotton pads (of the 01/07)(see sweat collection)
We used a protocol from: "Regulation of ovulation
by human pheromones" and "Olfactory influences on the human menstrual cycle"
Cut a medium piece form patch (from sample A). Put 500ul of ethanol (70%) and vortex (60 secondes) put immediatly the tube at -20°c.
Wait for it to be frozen (2h)
Take it out of freezer, wait 2-3 mins.
Then all the ethanol should be evaporated, rub the piece on a new clean pad.
Wait until the ethanol smell dissapear.
Smell it
Let the new cotton pad overnight in a box, smell it
Results The cotton pad is smelling like sweat, the smell is quite strong (7 people smelled it and recognized a strong sweat odour) but there is also a small smell of ethanol.
The longer you wait, smaller is the ethanol smell.
The smell completely disappear overnight.

July 10th

Goal: Capture the smell (volatiles compounds) in a patch. This has to be sterile, the odour has to be strong and that can stay for 5 days at least. Use a solvent exctraction technic found in litterature.

Protocol: Samples: Jalke/Henry/Alexandre cotton pads (of the 01/07)(see sweat collection)
We used a protocol from: "Regulation of ovulation
by human pheromones" and "Olfactory influences on the human menstrual cycle"
Cut a medium piece form patch (from sample 1/2/3(3 is a whole pad)). Put 3ml of ethanol (70%) and vortex (60 secondes) put immediatly the tube at -20°c.
(I've increased the amount of ethanol to be sure that the pad is sterilised) I had a control: PAD frozen without ethanol.
Wait for it to be frozen (2h)
Take it out of freezer, wait 2-3 mins.
(1)Then all the ethanol should be evaporated, rub the piece on a new clean pad.
Wait until the ethanol smell dissapear.
Smell it
Let the new cotton pad overnight in a box, smell it
(2)When ethanol is evaporated, put the pad in a close falcon tube
(3)Then all the ethanol should be evaporated, rub the piece on a new clean pad.
Wait until the ethanol smell dissapear.
Smell it
Let the new cotton pad overnight in a box, smell it

Results houldThe cotton pad smell too much like ethanol, we should find a perfect value for the amount of ethanol putted. Then the
solvent exctraction look complicated, because it appear that the smell is going away quite fast, also it is not very good that we have to keep the pad, because when people will smell it, they will directly recognize a cotton pad.

July 11th

Goal: PCR of agaA gBlock with oPB.001 and oPB.005

Procedure:

We are going to PCR using the

Fusion Polymerase

for the agaA gBlock with the forward primer

oPB.001

(the good one this time!) and the reverse primer

oPB.005.

These two oligos include the BioBrick prefix and suffix. The aim is to add the prefix and suffix to the agaA sequence and amplify it.

July 12th and 13th

Goal: PCR purification of the gBlock

Procedure:

Results:

-

1st raw:

Ready-to-use Gene Ruler (includes Loading Dye) 100 kb (5 uL)*

-

1st raw:

Ready-to-use Gene Ruler (includes Loading Dye) 100 kb (5 uL)*

Goal:Obtain pPB.001

Procedure:

Goal: Transform E coli with pPB.001

Procedure:

Results:

On July 13th we can see what seems a colony in one of the plates. We will see tomorrow.

On July 14th we see colonies.

July 14th

Goal:Culture Corynebacterium glutamicum and Corynebacterium striatum

Procedure:

We will open the flask that arrived and culture Corynebacterium in Tryptophan Soy liquid medium at 37ºC overnight. After, we will plate them and culture single colonies to make competent cells and transform them. Corynebacterium glutamicum is sPB.006 and Corynebacterium striatum is sPB.007.

Goal:Obtain pPB.001 (Digest pSEVA351 + ligate with agaA gBlock)

Procedure:

July 16th

Goal: Colony PCR: Check pPB.001 transformation

Procedure:

Yesterday July 15th Juanma runned a colony PCR with oPB.001 and oPB.005 using the

Phusion Polymerase protocol

. Today we will run a 1% agarose gel with the purified DNA following the

standard protocol

.

Results:

There are no bands on the gel. This might happen with Colony PCR. To double-check, we will do a MiniPrep to extract pPB.001 and run a PCR with oPB.001 and oPB.005.

Goal:Make competent Corynebacterium

Procedure:

July 17th

Goal:Check transformation of E coli with pPB.001 (MiniPrep + PCR + Gel)

Procedure:

Results:

Again, no bands.

Goal:Make competent Corynebacterium + Transform Corynebacterium with pSEVA

Procedure:

We will use the eppenforf protocol (https://docs.google.com/file/d/0By8yVXC0fFVRMTlDd3BxQXM2Y1U/edit)

Results:

There are a lot of colonies for sPB.007. In both plates. We will check that there is an insert. for that, we have started a culture (July 20th) and we will PCR it tomorrow.

July 18th

Goal:Check transformation of E coli with pPB.001

Procedure:

Results:

The gel is empty. We cannot even see the vector.

July 20th

Goal: Ligate pPB.001 + E coli transformation

Procedure:

Results:

There were no colonies 48h after.

August

August 1st

Goal: Check E coli transformation with pPB.001 (miniprep + digestion)

Procedure:

Results:

There are colonies on the plate. We will culture, miniprep and digest them.

August 5th

Goal: Check E coli transformation with pPB.001 and Corynebacterium transformation with pSEVA +

Procedure:

Results:

-

1st raw:

Gene Ruler 100 kb + 1uL Loading Dye

Conclusions:

Goal: Corynebacterium striatum transformation with pSEVA

Procedure:

We will use the eppenforf protocol (https://docs.google.com/file/d/0By8yVXC0fFVRMTlDd3BxQXM2Y1U/edit)

Results:

There are a lot of colonies in the plate. We will strike them to pick single colonies and check the transformation.

August6th

Goal: pPB.001 ligation

Procedure:

Goal: Transform E coli with pPB.001

Procedure:

Results:

There are colonies in the plate. We made a sub culture to pick single colonies on August 6th. On August 7th we made a liquid culture to then miniprep it and check the transformation.

August 7th

Goal:Obtain pPB.001 (agaA gBlock digestion + ligation)

Procedure:

Results:

Goal:Check transformation in Corynebacterium

Procedure:

We picked 2 single colonies and incubated them in LB at 37ºC overnight.

Goal:Glycerol stock for E coli with pSEVA

Procedure:

We added 750 uL of culture and 250 uL of Glycerol 60% and stock them in the common box at -20ºC and some other tubes at -80ºC.

August 8th, 10th and 11th

Goal:Check Corynebacterium transformation with pSEVA

Procedure:

Goal: Obtain PSB1C3 and clone it in E coli

Procedure:

Results:

div> I have too many colonies and they do not look red, just redish. So two things:

- Strike a sample in another plate to see single colonies (August 10th) - Plate 1

- Do a new transformation (August 10th) - Plate 2

August 11th - We see colonies in both plates, but in Plate 1 they are bigger and express very intensly RFP. So we took a colony from this plate to miniprep and extract PSB1C3.

2) Digest PBS1C3

3) Purify PBS1C3 with sticky ends in a gel

We run an agarose gel at 1%, cut the region of PSB1C3 and make a gel purification using the kit.

4) Ligate PSB1C3 with the gBlock

6) Transform pPB.001 in E coli

No colonies were seen 12h after. We will incubate more time. So we will (August 13th):

- We will repeat the heat shock transformation with the ligation product that was left at 4ºC

- We will run a gel with the ligation product

Because we cannot see any colonies on August 14th, we will:

MiniPrep

We will extract pPB.001 by making a MiniPrep following the standard protocol.

In the nanodrop, we saw that the yield was10 ug/mL.

Digest

MiniPrep

We will extract pPB.001 by making a MiniPrep of 8 colonies of the second plate we plated (we left a part of our liagation at 4ºC overnight and then transformed E coli) following the standard protocol.

Digest

-We cannot see anything in the analysis by digestion.

-The gel of the PCR confirms the presence of our gBlock with agaA

September

September 3rd

Goal:Check Ligation of agaA gBlock in pSEVA // YFP and BFP in pSEVA

Procedure:

Results

- 1st raw: Loading dye 1kb

- 2nd raw: sample of agaA EP Dig+Pur.

- 3rd raw: sample of pSEVA EP Dig+Pur.

- 4th raw: ligation product pPB.003 (ligation of agaA EP Dig+Pur and pSEVA EP Dig+Pur)

 

Ligation is successful! Next time, we should add more DNA and decrease water.