Team:OU-Norman OK/Project/Notebook
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+ | <p class = "date">05/16/13</p> | ||
+ | <p>???????????????</p> | ||
+ | </br> | ||
+ | <a href = "#top">Back to top</a> | ||
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+ | <h1></h1> | ||
+ | <p class = "date">07/11/13</p> | ||
+ | <div align="center" style="border:1px solid white"><b>Dual Digest of pSB1C3 and mlsR Part </b></div></br></br> | ||
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Revision as of 19:31, 25 September 2013
07/11/13
07/10/13
The following sequences have been verified:
Clos Ori BBa_J238001
Pthl BBa_J238002
Paadc BBa_J238003
Ptb BBa_J238004
mlsR BBa_J238005
Use Terminators for test testing
Long artificial terminator (T>90%)
- BBa_B1006
- 39 base pairs
- 2013 p3w6D in C3
Small artificial terminator (T = 85%)
- BBa_B1002
- 34 base pairs
- 2013 p5w4D in Ak3
07/10/13
Procedure followed as on pg. 50
Row 1 | ||||
---|---|---|---|---|
Lane | Sample | Dilution | Temperature (°C) | |
1 | Ladder | |||
2 | C. sacc | 1:10 | 50.8 | |
3 | C. sacc | 1:100 | 50.8 | |
4 | C. sacc | 1:1000 | 50.8 | |
5 | mlsR | 1:10 | 50.8 | |
6 | mlsR | 1:100 | 50.8 | |
7 | mlsR | 1:1000 | 50.8 | |
8 | C beij | 1:10 | 50.8 | |
9 | C beij | 1:100 | 50.8 | |
10 | empty | |||
11 | empty | |||
12 | empty | |||
13 | empty | |||
14 | empty | |||
15 | empty | |||
16 | empty | |||
Row 2 | ||||
1 | Ladder | |||
2 | C. sacc | 1:10 | 52.8 | |
3 | C. sacc | 1:100 | 52.8 | |
4 | C. sacc | 1:1000 | 52.8 | |
5 | mlsR | 1:10 | 52.8 | |
6 | mlsR | 1:100 | 52.8 | |
7 | mlsR | 1:1000 | 52.8 | |
8 | C beij | 1:10 | 52.8 | |
9 | C beij | 1:100 | 52.8 | |
10 | empty | |||
11 | empty | |||
12 | empty | |||
13 | empty | |||
14 | empty | |||
15 | empty | |||
16 | empty | |||
Row 3 | ||||
1 | Ladder | |||
2 | C. beij | 1:10 | 54.1 | |
3 | C. beij | 1:100 | 54.1 | |
4 | mlsR | 1:10 | 54.1 | |
5 | mlsR | 1:100 | 54.1 | |
6 | mlsR | 1:1000 | 54.1 | |
7 | C. sacc | 1:10 | 54.1 | |
8 | C. sacc | 1:100 | 54.1 | |
9 | C. sacc | 1:1000 | 54.1 | |
10 | empty | |||
11 | empty | |||
12 | empty | |||
13 | empty | |||
14 | empty | |||
15 | empty | |||
16 | empty | |||
Row 2 | ||||
1 | Ladder | |||
2 | C. beij | 1:10 | 58.8 | |
3 | C. beij | 1:100 | 58.8 | |
4 | mlsR | 1:10 | 58.8 | |
5 | mlsR | 1:100 | 58.8 | |
6 | mlsR | 1:1000 | 58.8 | |
7 | C. sacc | 1:10 | 58.8 | |
8 | C. sacc | 1:100 | 58.8 | |
9 | C. sacc | 1:1000 | 58.8 | |
10 | empty | |||
11 | empty | |||
12 | empty | |||
13 | empty | |||
14 | empty | |||
15 | empty | |||
16 | empty | |||
07/9/13
Procedure followed as on pg. 50
Back to top07/9/13
Column Number | Temperature (°C) |
---|---|
3 | 50 |
5 | 52.8 |
6 | 54.1 |
10 | 58.8 |
Lane Number | Sample |
---|---|
1 | C sacc 1:10 |
2 | C sacc 1:100 |
3 | C sacc 1:1000 |
4 | mlsR 1:10 |
5 | mlsR 1:100 |
6 | mlsR 1:1000 |
7 | C beij 1:10 |
8 | C beij 1:100 |
Vf Preparation
Component | Amount |
---|---|
2x Mastermix | 125μL |
Forward | 2μL |
Reverse | 2μL |
PCR dH2O | 121μL |
Total | 250μL |
07/3/13
Row 1 | ||
---|---|---|
Lane | Sample | |
1 | Ladder | |
2 | C. sacc 1:10 | |
3 | C. sacc 1:100 | |
4 | C. sacc 1:1000 | |
5 | C. sacc 1:10000 | |
6 | Negative | |
7 | mlsR 1:10 | |
8 | mlsR 1:100 | |
9 | mlsR 1:1000 | |
10 | mlsR 1:10000 | |
11 | Negative | |
12 | ladder | |
13 | empty | |
14 | empty | |
15 | empty | |
16 | empty | |
Row 2 | ||
1 | Ladder | |
2 | C. sacc 1:10 | |
3 | C. sacc 1:100 | |
4 | C. sacc 1:1000 | |
5 | C. sacc 1:10000 | |
6 | Negative | |
7 | C. beij 1:10 | |
8 | C. beij 1:100 | |
9 | C. beij 1:1000 | |
10 | C. beij 1:10000 | |
11 | empty | |
12 | empty | |
13 | empty | |
14 | empty | |
15 | empty | |
16 | empty | |
07/2/13
07/2/13
Due to previous low extraction efficiency
Attempted to extract higher [DNA]
- For 5mL tubes, each containing 3mL of meat extract broth inoculated with R. eutropha cells, which were in stationary phase
- 1mL aliquots transferred stepwise to two 15mL epi tubes, spinning at 14,000 rpm for five minutes to pellet cells
- Supernatant discarded and additional 1mL aliquot added, spun until all cells pelleted
- Cells re suspended in 500μL if 1x STE buffer in each of the two epi tubes
- Vortex
- 50μL of 10% SDS added to each tube
- 500μL of TE saturated phenol pH8 added to each tube
- Vortex well and centrifuge for 30 seconds
- Aqueous recovered
- Phenol extraction
- Steps 7-9 repeated
- 500μL chloroform added to each tube and vortexed
- Aqueous discarded
- Chloroform extraction repeated
- 400μL split into each of four tubes
- 100μL of 3M NaOH added to each tube
- 350μL isopropanol added to each tube
- Centrifuge at 14000 rpm for 25 minutes
- Liquid discarded
- Tubes places on 80°C heating block for 15 minutes
- Contents of each tube re suspended in 500μL of PCR dH2O ----------------------------4PIC-------------------------------------------------- Back to top
- Undiluted
- 1:10
- 1:100
- 100mL in bottles
- 20mL in vials
- Clean glass vial with acetone
- In aerobic Chamber:
- Chemwipes
- Sterile Needles
- Bring into chamber
- Heavy duty aluminum foil to work over
- Glass cutter
- File
- Cycle chamber airlock; twice
- Clean gloves and chamber with 1N HCl (x2)
- ???????????????????
- Use sterile syringe to add 0.5mL media to inner vial
- Mix with syringe
- Add 0.5 of inoculums to each of the two media vials
- Transfer an inoculum from these vials to a second vial to get one heavy and one light inoculum
- Spun at 12000 g for 20 minutes
- Discarded supernatant and re suspended in 15mL of TFBl
- Incubated on ice for 60 minutes
- Centrifuged at 12000 g for 20 minutes
- Re suspend cells in 500μL 1x STE buffer
- Vortex
- Add 1/10 volume of 10% SDS
- 2 minutes in bead beater
- Add 500μL TE saturated phenol pH 8
- Be sure to go down far enough in bottle to reach phenol
- Put directly back in fridge when done
- Vortex
- Centrifuge for 30 seconds
- Recover aqueous phase
- Don’t recover white material at interphase
- Throw away
- Add 500μL Chloroform: Isoamyl acetate
- Vortex
- Centrifuge for 30 seconds
- Recover and throw away aqueous phase
- Repeat Steps 8-12
- Add 2/10 volumes 3M sodium acetate
- Add 7/10 volumes isopropanol
- Mix well
- Centrifuge for 25 minutes
- Remove liquid and don’t disturb invisible pellet
- Dry pellet at 60°C in heat block for 10 minutes
- Leave caps off to allow isopropanol to evaporate
- Re suspend pellet in 50μL of dH2
- Re suspend cells in 500μL 1x STE buffer
- Vortex
- Add 1/10 volume of 10% SDS
- 2 minutes in bead beater
- Add 500μL TE saturated phenol pH 8
- Be sure to go down far enough in bottle to reach phenol
- Put directly back in fridge when done
- Vortex
- Centrifuge for 30 seconds
- Recover aqueous phase
- Don’t recover white material at interphase
- Throw away
- Add 500μL Chloroform: Isoamyl acetate
- Vortex
- Centrifuge for 30 seconds
- Recover and throw away aqueous phase
- Repeat Steps 8-12
- Add 2/10 volumes 3M sodium acetate
- Add 7/10 volumes isopropanol
- Mix well
- Centrifuge for 25 minutes
- Remove liquid and don’t disturb invisible pellet
- Dry pellet at 60°C in heat block for 10 minutes
- Leave caps off to allow isopropanol to evaporate
- Re suspend pellet in 50μL of dH2
- Insert, Vector: 21μL
- Ligase Buffer: 5μL
- Ligase: 3μ:L
- 5μL 10x Buffer
- 2μL ligase (quick)
- ?μL vector
- ?μL insert
- Up to 50μL dH2
- Turn on heating block
- Add equal amounts of phenol and whatever volume DNA is in (20μL)
- Phenol : Pipette below top surface
- Vortex
- Centrifuge for 30 seconds
- Two layers appear
- Protein is inactive and at interphase
- Pipette out top layer of both and combine aqueous
- Need to get rid of phenol because it absorbs same wavelength as does water and interferes with enzyme activity
- Add 50μL of CIAA 24:1
- Removes Phenol
- Vortex
- Centrifuge for 30 seconds
- Remove top layer (aqueous)
- Leave a little behind so not to contaminate aqueous phase with bottom layer
- Add 50μL of CIAA 24:1
- Vortex
- Centrifuge for 30 seconds
- Remove top layer (aqueous)
- Leave a little behind so not to contaminate aqueous phase with bottom layer
- Add 1/10 volume sodium acetate 3M pH 5.2
- Add 7/10 volume (total) of isopropanol
- Vortex
- Centrifuge for 20 minutes at 14,000 rpm
- Dispose of liquid, leaving pellet inside tube
- Add 50μL of 10% ethanol to get rid of isopropanol
- Centrifuge for 30 seconds
- Dispose of liquid
- Use heat block to dry
- 60°C for 15 minutes
- Leave tube open
- Add 10μL of PCR water to re suspend pellet
- Use 2μL to quantify via nandrop
- Add 1μL Ligase (quick)
- Add 1μL 10x Buffer = 10μL reaction
- Let reaction sit at room temperature for 2 hours
- 95°C for 2 minutes
- 95°C for 30 seconds
- 55°C for 30 seconds
- 68°C for 3 minutes
- 69°C for 10 minutes
- 10μL of each NYP
- 60μL of dH2O
- Dilutions
- 1:10
- 1:100
- 1:1000
- 95°C for 45 seconds
- 52°C for 45 seconds
- 72°C for 2 minutes
- 500mL dH2
- 15g TSB mix
- 1g glucose
- Adjust pH to 7.3
- Place sponge stopper in place
- Open silver valve and black valve
- Set degassing station to 20 psi
- Switch to nitrogen and run for 30 seconds to flush oxygen out of head space
- Place largest needle into media and turn on spin located on stir-plate, then set time for 45 minutes
- Disinfect top of bottle with alchol wipe
- Add sterile wipe filter with new needle
- Need steady stream of bubbles
- Add 0.1mL Resasrin (will be purple until autoclaved)
- Post autoclaved
- Pink color signifies media has been exposed to oxygen
- No color in media signifies media is anaerobic
- Oxygen scavenger
- If black precipitant forms after autoclave and before transfer into media bottles, then too much oxygen present.
- Use acid washed vials
- Place stoppers in ice and water to shrink pores
- Flush bottles and vials with nitrogen
- Place 35mL in each using automated pipette
- Angle stopper with needle (gas still within)
- Leave for 10 seconds
- Bring needle out of bottle and push stopper in
- Crimp top
- Add 15mL to vials
- Flush head space
- Put regular needle in and flushing needle in
- Flush for 3 minutes
- Pull both needles out at same times so you don’t put pressure on tubes
- Switch degassing station to vacuum
- Alternate between vacuum and pressure 10 times
- Let it settle back to position before going back to pressure
- Make sure all needles are in black stopper
- Tubes now have 20 psi and poke with needle to vent
- Turn off tank
- Autoclave immediately
- 95°C for 45 seconds
- 52°C for 45 seconds
- 72°C for 2 minutes
- well 1: 1:10 dilution of template
- well 2: 1:100 dilution
- well 3: 1:1000 dilution
- well 4: negative control
- 95°C for 2 minutes
- 95°C for 30 seconds
- 55°C for 30 seconds
- 68°C for 3 minutes
- 68°C for 10 minutes
- pSB1C3
- RSA1 and Xba1
- 2μL of Invitrogen buffer
- pSB1C3
- RSA1 and Xba1
- 2μL of Fermentas buffer
- pSB1C3
- RSA1 and Xba1
- 1μL of Fermentas buffer and 1μL of Invitrogen buffer
- 5μL Plasmid
- 2μL RSA1
- 2μL 10x Buffer
- 11μL PCR Water
- 5μL Plasmid
- 2μL RE1(XbaI)
- 2μL RE2(Hind 3 or RSA1
- 2μL 10x Buffer
- 9μL PCR Water
- 0.8g of agarose
- 40mL of TAE 1x
- Only a 1:100 dilution was used since our DNA template had a concentration of 164.6 ng/μL, which is a good value to use for genomic DNA.
- A temperature gradient for the annealing step was setup where different columns in thermocycler are a different temperature during the annealing process.
- Highlight stage of interest (in this case; annealing)
- Selection "options"
- Select "Show Gradient"
- well 1:Ladder
- well 2:10 Dilution
- well 3:100 Dilution
- well 4:1000 Dilution
- well 5:10000 Dilution
- well 6:Control
- Click icon with ND-1000 on computer
- Click "Nucleic Acids"
- Wipe off pedestal with chemwipe
- Load 3°L DI water to initialize and click blank
- Click "Measure" to verify flat line
- Load 3°L of sample
- Click "Measure"
- Click "Print" screen after sample ID has been typed in
- In a 125mL erlenmyer flask, combine 0.4g ultra pure agarose and 40mL 1x TAE buffer, which makes a 1% gel
- Swirl to mix. Place in microwave for 40 seconds. If all agarose isn't dissolved, heat again in 7 second increments
- Run flask bottom under water to cool agarose
- Pour into gel rig with comb inserted
- Let gel cool until opaque
- Move gel into gel rig container, pour 1x TAE buffer until it covers the gel surface
- Remove comb slowly
- Mix 5-10μL of digest with 3μL of 1:4 EZ Vision dye (Note: if using undigested DNA, only use 2μL
- Load samples into wells after 1 kb DNA ladder is loaded into far left lane
- well 1:Ladder
- well 2:pSB1C3 EcoR1
- well 3:pSB1C3 EcoR1 Pst1
- well 4:pSB1C3 Pst1
- well 5:pSB1A3 EcoR1
- well 6:pSB1A3 EcoR1 Pst1
- well 7:pSB1A3 Pst1
- well 8:pSB1C3 UNDIGESTED
- Run gel for 45 minutes-1.5 hours at 85 volts
- Run gel for 45 minutes-1.5 hours at 85 volts
------------------------PIC PG 15--------------------------------------------------------------------------
PCR Reaction Protocol
- Combine the following
- 150μL 2x master mix (polymerase,buffer)
- 1μL forward primer
- 1μL reverse primer
- 148μL DI water (PCR water, UV prior to use)
- Make 1:10, 1:100, 1:1000, 1:10000 dilutions of template
- In four tubes, combine 50μL of step 1 solution and 1μL of diluted template
- in fifth tube, only put in step 1 solution as a negative control
Regular PCR Cycle
- 95°C for 45 seconds
- 55°C for 1 minute
- 75°C for 1.5 minutes
- These three steps are cycled 35 times
03/12/13
Preformed the following restriction digest of pSB1A3 and pSB1C3.
500ng DNA in 20μL
pSB1A3 [DNA] = 135.8ng/μL
pSB1C3 [DNA] = 74.7ng/μL
500ng x μL/135.8μg = 3.68μL
500ng x μL/74.7μg = 6.69μL
Sample EcoRI PstI 10X Buffer DNA PCR Water TOTAL pSB1A3 2μL 0μL 2μL 4μL 12μL 20μL pSB1A3 2μL 2μL 2μL 4μL 10μL 20μL pSB1C3 2μL 0μL 2μL 7μL 9μL 20μL pSB1C3 2μL 2μL 2μL 7μL 7μL 20μL 03/8/13
Nanodrop DNA QuanitificationProtocol
- Open Nanodrop 7000 V.6.0
- Select Nucleic Acid
- Blank via 3μL of PCR water
- Verify 0ng/&#;L DNA in PCR water
- Load 3μL of sample
- Record DNA concentration in ng/μL
- Print Screen
pSB1K3
p34KM
pIKM1
pSB1A3
pSB1C3
Back to top02/13/13
Colonies were counted
1:1000 dilution of AmpicillinR pSB1A3 wasn't properly plated
Dilution Plasmid Colony Count Cells/μg DNA 1:1000 pSB1C3 58 8.24e6 1:1000 pSB1K3 79 1.12e7 1:1000 p34KM 157 2.22e7 1:100 pSB1A3 1521 2.16e7 Note: 1:100 estimates by counting colonies in 1/3 of plate and multiplying by 3
Back to top02/12/13
Plates were removed from 37°C incubator, wrapped in parafilm, and stored in 4°C refrigerator overnight
Back to top02/13/13
pSB1C3
Dilution 1:1000
58 Colonies
Back to top02/11/13
Transforming Competent Cells
We transformed TOP10 chemically competent cells using plasmids.
Resistance Plasmid ID Original Concentration (ng/μL) Kanamycin pSB1K3 62 Kanamycin p34KM 40 Chloramphenicol pSB1C3 43 Ampicillin pSB1A3 75 Protocol
- TOP10 competent cells in 100μL alliquots (x5) were thawed on ice and resuspended.
- 100ng of plasmid were added to cells
- Cells were placed on ice for 20 minutes
- Cells were transformed to a 42°C waterbath for 60 seconds
- After 60 seconds in waterbath, add 600μL of Psi proth IMMEDIATELY to clls
- Cells were incubated for 60 minutes at 37°C while shaking at 200rpm
- Dilutions of transformation mixture were made at 1:10, 1:100, and 1:1000
- 50mL of each dilution was plated on an LB + Antibiotic plate
- Plates were incubated at 37°C overnight
Plasmids were diluted to 20μL of 10μg/μL
p34KM
pSB1C3
pSB1A3
pSB1K3
Back to topBuffers for Preparing Competent E. coli
02/4/13
TFB1: pH: 5.8/ Sterile Filter
Chemicals Concentration (mM) RbCl 100 MnCl2 50 Potassium Acetate 30 CaCl2 10 Glycerol 15% by Weight TFB2 ph:6.8 (Use KOH to adjust)/ Sterile Filter
Chemicals Concentrations (mM) MOPS 10 RbCl 10 CaCl2 75 Glycerol 15% by Weight TFB1 Chemicals Mass (g) RbCl 3.02965 MnCl2 1.56996 Potassium Acetate 0.74392 CaCl2 0.27806 Glycerol 37.5463 TFB2 Chemicals Mass (g) MOPS 0.53398 RbCl 0.30225 CaCl2 2.88320 Glycerol 37.5457 Making Antibiotic Stocks
02/1/13
Antibiotics are used to isolate organisms into which plasmids containing antibiotic resistance genes have been transformed.
Make antibiotic plates with the following specs.
Antibiotic Concentration (µg/mL) Color Code Ampicillin 100 Orange Chloramphenicol 35 Green Kanamycin 50 Red Tetracycline 15 Yellow Stocks should be made at 1000x concentration, so that making 1L of plate medium will require only 1mL of stock antibiotic solution.
Stocks of antibiotics are made at the following concentrations
Ampicillin 100 mg/mL Chloramphenicol 35 mg/mL Kanamycin 30 mg/mL Tetracycline 15 mg/mL 50mL of stock were prepared and split into several 15mL tubes
Stocks should be stored in the refrigerator at 4°C
Back to top01/25/13
Restreaked TOP10 cells on LB plates for isolation of single colonies.
Back to top01/23/13
Sealed TOP10 E. coli cells on LB agar plate. Stored in 37°C incubator
Back to top01/18/13
Poured LB agar plates
Back to top01/16/13
Making Agar Plates
LB agar is used to grow our stocks of Escherichia coli
Recipe: Per 1000 mL- 10g Bacto Tryptone
- 5g Yeast Extract
- 10g Sodium Chloride (NaCl)
- 15g Agarose
Mix Components in 1L of dH2O until dissolved. Spilt 1000mL solution into two flask. Cap flask with aluminum to prevent spilling of solution. Autoclave on slow exhaust for 20 minutes. Keep liquid in 65°C water bath to prevent setting until 18-Jan.
Back to top - Combine the following
07/2/13
Lane | Sample | |
---|---|---|
1 | Ladder | |
2 | C. sacc Undiluted | |
3 | C. sacc 1:10 | |
4 | C. sacc 1:100 | |
5 | Negative | |
6 | C. cell undiluted | |
7 | C. cell 1:10 | |
8 | C. cell 1:100 | |
Lane | Sample | |
---|---|---|
1 | Ladder | |
2 | Negative Control | |
3 | 1:10 Diluted C. beij | |
4 | C. beij 1:100 | |
5 | C. beij 1:1000 | |
6 | C. beij 1:10000 | |
7 | Empty | |
8 | Empty | |
07/1/13
16S gel of C. acetobutylicum, R. eutropha, C. sacchaolyticum, and C. beijerinki to confirm wheather or not we have what we think we have
16S Gel | |
---|---|
Lane Number | Sample |
1 | Ladder |
2 | C. beijerinki |
3 | R. eutropha |
4 | C. sacchrolyticum |
C. acetobutylicum | |
06/28/13
1 part loading dye
2 parts 40% glycerol
2 parts PCR DI water
Back to top06/27/13
Procedure performed as outline on pg. 42
---------------------------3 pics------------------------------------------16S PCR of C. acetobutylicum, R. eutropha, C. sacchrolyticum, and C. beijerinki to confirm wheather or not we have what we think
PCR Solution | |
---|---|
Component | Amount (μL) |
2x PCR Mastermix | 350 |
Forward primer (27F) | Reverse primer (1525R |
PCR water | 344 |
Total | 700 |
Place 1μL template into each tube
Negative control won’t have a template
Row Number | Colum Number | Sample |
---|---|---|
3 | 7 | Negative Control |
4 | 4 | C. beijerinki |
4 | 5 | C. beijerinki 1:10 |
4 | 6 | C. beijerinki 1:100 |
4 | 7 | C. sacchrolyticum |
4 | 8 | C. sacchrolyticum 1:10 |
4 | 9 | C. sacchrolyticum 1:100 |
5 | 4 | C. acetobutylicum |
5 | 5 | C. acetobutylicum 1:10 |
5 | 6 | C. acetobutylicum 1:100 |
5 | 7 | R. eutropha |
5 | 8 | R. eutropha 1:10 |
5 | 9 | R. eutropha 1:100 |
Gel of PCR product | ||
---|---|---|
Row Number | Colum Number | Sample |
1 | 1 | Ladder |
1 | 2 | C. beijerinki |
1 | 3 | C. beijerinki 1:10 |
1 | 4 | C. beijerinki 1:100 |
1 | 5 | C. sacchrolyticum |
1 | 6 | C. sacchrolyticum 1:10 |
1 | 7 | C. sacchrolyticum 1:100 |
2 | 1 | Ladder |
2 | 2 | C. acetobutylicum |
2 | 3 | C. acetobutylicum 1:10 |
2 | 4 | C. acetobutylicum 1:100 |
2 | 5 | R. eutropha |
2 | 6 | R. eutropha 1:10 |
2 | 7 | R. eutropha 1:100 |
2 | 8 | Negative Control |
We have bands of the correct length for Cb, Cs, and Ca, they are too faint for sequencing. So, we are going to redo the PCR without template dilutions and do 35 cycles instead of 30 cycles
Back to top06/25/13
C. cellulolyticum may be grown at 37°L
VM medium to reduce precicpitation
AEM: 77, 2727-2733 (2011)
Modified ? (per liter) | |
---|---|
Component | Amount |
KH2PO4 | 1g |
KH2PO4 | 3.4g |
Urea | 2.14g |
MgCl2 - 6H2O | 1g |
CaCl2 - 2H2O | 0.15g|
FeSO2 - 6H2 | 1.25g |
MOPS 3-(N-morpholino)propanesulfuric acid | 10g |
Rezazurin | 2mg |
Vitamin solution | 10mL |
Yeast Extract | 2g |
Oligoelement solution | 1mL |
Cysteine – HCl | 1g |
Cellobiose | 5.1345 |
100x Vitamin Solution | |
---|---|
Component | Amount|
Biotin | 0.08μM |
Pyridoxamine | 0.02μM |
Cyanocobalamine | 0.001μM |
p-aminobenzoic acid | 0.15μM |
Thiamine | 0.9μM |
L-alaning | 0.22μM |
1000x Oligoelement Solution (per liter) | |
---|---|
Component | Amount |
FeSO4 - 7H2O | 5g |
ZnSO4 - 7H2O | 1.44g |
MnSO4 - 7H2O | 1.12g |
CuSO4 - 5H2O | 0.25g |
Na2B4O7 | 0.2g |
(Mo)7(NH4)6O24 - 4H2O | 1g |
NiCl2 | 0.04g |
CoCl2 | 0.02g |
HBO3 | 0.03g |
Na2SeO3 | 0.02g |
10M HCl | 50mL |
VM Medium placement
06/25/13
06/24/13
Media components were added to a 2000mL Erlenmeyer flask
0.1mL of 1g/L Rezarin was added to the medium and was degassed under N2 for 45 minutes
Back to top06/21/13
C. acetobutylicum will grow on defined media:
AEM 50:1238 (1985) or the following
Dr. Tanner’s recipe of C .acetobutylicum (per liter) | |
---|---|
Component | Amount |
Yeast Extract | 1g |
Glucose/Dextrose | 20g |
RST minerals | 10mL |
RST vitamins | 10mL |
RST metals | 5mL |
RST Minerals (per liter) | |
---|---|
Component | Amount |
NaCl | 80g |
NH4Cl | 100g |
KCl | 10g |
KH2PO4 | 10g |
MgSO4 - 7H2O | 20g |
CaCl2 - 2H2O | 4g |
RST Minerals (per liter) | |
---|---|
Component | Amount |
Nitriloacetic Acid | 2g |
MnSO4 - H2O | 1g |
Fe(NH4)2(SO4)2 - 6H2O | 0.8g |
CoCl2 - 6H2O | 0.2g |
2nSO4 - 7H2 | 0.2g |
CuCl2 - 2H2O | 0.02g |
NiCl2 - 6H2O | 0.02g |
Na2MoO4 - 2H2O | 0.02 |
Na2SeO4 | 0.02g |
Na2WO4 | 0.02g |
RST Vitamins | ||
---|---|---|
Components | Amount | Light Sensitivity (Y/N) |
Pyridoxine HCl | 10mg | Y |
Thiamine HCl | 5mg | Y |
Riboflavin | 5mg | Y |
Calcium Pantothenate | 5mg | Y |
Thioctic Acid | 5mg | N |
p-Aminobenzoic Acid | 5mg | Y |
Nicotinic Acid | 5mg | N |
B12 = Cyanocobalamine | 5mg | N |
Biotin | 2mg | N |
Folic Acid | 2mg | Y |
Mercaptopethane Sulfuric Acid | 10mg | N |
06/17/13
Suspended a unit sized inoculums of pAN1 containing DH5 E. coli in LB with chloramphenicol resistance.
Incubated overnight at 37°C and at 220 rpm for 2.5 hours
One culture has an OD600 of 0.38 and another is 0.475
06/14/13
06/14/13
Component | Amount (μL) |
---|---|
EcoR1 | 1 |
Pst1-Hf | 1 |
10x Buffer | 2 |
DNA | 2.5 (500ng) |
PCR H2 | 13.5 |
Total | 20 |
Place in 37°C water bath for 45 minutes
Back to top06/13/13
Row 1 | ||
---|---|---|
Well Number | Sample | Temperature (°C) |
1 | Ladder | |
2 | AdhE1 | 50.8 |
3 | AdhE1 | 52.8 |
4 | AdhE1 | 54.1 |
5 | AdhE1 | 58.8 |
Row 2 | ||
---|---|---|
Well Number | Sample | Temperature (°C) |
1 | Ladder | |
2 | AdhE | 50.8 |
3 | AdhE | 52.8 |
4 | AdhE | 54.1 |
5 | AdhE | 58.8 |
The gel results of this PCR are similar to the last one. The bands indicate smaller than 250 base pairs, which is smaller than the size of the genes we intended to amplify (2000 base pairs).
AdhE = 2589 base pairs
AdhE1 = 2577 base pairs Back to top06/12/13
Temperature gradient and dilution up to 1:10000
Column Number | Temperature (°C) |
---|---|
3 | 50.8 |
5 | 52.8 |
6 | 54.1 |
10 | 58.8 |
06/12/13
06/10/13
Testing our primers using the template prepared on June/4
Forward primer used (AdhE)
Forward primer sequence
Reverse primer used (AdhE)
Reverse primer Sequence
Forward primer used (AdhE1)
Forward primer sequence
Reverse primer used (AdhE1)
Reverse primer sequence
Preparation of solution 1:
Into two separate 1.5mL centrifuge tubes
Component | Amount (μL) |
---|---|
PCR DI Water | 146 |
2x PCR Mastermix | 150 |
Forward primer | 2 |
Reverse primer | 2 |
Total | 300 |
50μL of solution 1 were pipette into 5 PCR tubes for each solution (AdhE and AdhE1)
Template dilutions were prepared for 1:10, 1:100, 1:1000, and 1:10000
1mL of template was loaded into 2 each of 4 PCR tubes containing 50μL of solution 1
The 5th PCR tube containing solution 1 will serve as negative control
Back to top06/4/13
Place pxy plates in glove box to degrass
Extracted Ca DNA
05/31/13
Digestion as preformed on pg. 47
Gel of Digestion | |
---|---|
Row 1 | |
Well Number | Sample |
1 | Ladder |
2 | 1 |
3 | 3 |
4 | 5 |
5 | 8 |
6 | 11 |
7 | 12 |
Row 2 | |
Well Number | Sample |
1 | Ladder |
2 | 16 |
3 | 18 |
4 | 20 |
5 | 22 |
6 | 24 |
Wells 2 and 3 like like what we need.
Sequencing primers are in the process of being made to comfirm
Row 2 | ||
---|---|---|
Well Number | Sample | Temperature (°C) |
1 | Ladder | |
2 | AdhE | 50.8 |
3 | AdhE | 52.8 |
4 | AdhE | 54.1 |
5 | AdhE | 58.8 |
The gel results of this PCR are similar to the last one. The bands indicate smaller than 250 base pairs, which is smaller than the size of the genes we intended to amplify (2000 base pairs).
AdhE = 2589 base pairs
AdhE1 = 2577 base pairs Back to top06/12/13
Temperature gradient and dilution up to 1:10000
Column Number | Temperature (°C) |
---|---|
3 | 50.8 |
5 | 52.8 |
6 | 54.1 |
10 | 58.8 |
06/12/13
06/10/13
Testing our primers using the template prepared on June/4
Forward primer used (AdhE)
Forward primer sequence
Reverse primer used (AdhE)
Reverse primer Sequence
Forward primer used (AdhE1)
Forward primer sequence
Reverse primer used (AdhE1)
Reverse primer sequence
Preparation of solution 1:
Into two separate 1.5mL centrifuge tubes
Component | Amount (μL) |
---|---|
PCR DI Water | 146 |
2x PCR Mastermix | 150 |
Forward primer | 2 |
Reverse primer | 2 |
Total | 300 |
50μL of solution 1 were pipette into 5 PCR tubes for each solution (AdhE and AdhE1)
Template dilutions were prepared for 1:10, 1:100, 1:1000, and 1:10000
1mL of template was loaded into 2 each of 4 PCR tubes containing 50μL of solution 1
The 5th PCR tube containing solution 1 will serve as negative control
Back to top06/4/13
Place pxy plates in glove box to degrass
Extracted Ca DNA
05/31/13
Digestion as preformed on pg. 47
Gel of Digestion | |
---|---|
Row 1 | |
Well Number | Sample |
1 | Ladder |
2 | 1 |
3 | 3 |
4 | 5 |
5 | 8 |
6 | 11 |
7 | 12 |
Row 2 | |
Well Number | Sample |
1 | Ladder |
2 | 16 |
3 | 18 |
4 | 20 |
5 | 22 |
6 | 24 |
Wells 2 and 3 like like what we need.
Sequencing primers are in the process of being made to comfirm
Back to top05/30/13
Purified six tubes of DNA (plasmid)
Quantification with Nanodrop
------------------------------------6 PICS-----------------------------Digestion | |
---|---|
Component | Amount (μL) |
EcoR1 | 2 |
Pst1 | 2 |
10x Buffer | 1 |
5 | |
Incubate in 37°C water bath for 1 hour
Load all 10μL onto gel
Gel of Digestion | |
---|---|
Well Number | Sample |
1 | Ladder |
2 | Screen #3 |
3 | Screen #6 |
4 | Screen #10 |
5 | Screen #19 |
6 | Screen #19 |
7 | Screen #26 |
Note: Screen # corresponds to quantification Id
Since our insert is about 700 base pairs and our vector is about 2000 base pairs. Well 2 looks like what we want. We are going to re streak colonies isolated from plate with screen #3 , make a freezer stock, and take more colonies from screen #10
Freezer stocks of Top 10, pAN1, pIKM1, and p34KM were made by suspending cells in 1mL of 10% glycerol.
Back to top05/29/13
Made 80 stocks of C. acetobutylicum (2mL of culture into 2mL of glycerol)
Streaked three more Top 10 pSB1C3 and Clostridial Origin plates
Back to top05/28/13
Inoculated cultures of C. acetobutylicum and a transfer was made
Six plates (LB + Chloramphenicol) were streaked with transformation of pSB1C3 and Clostridial Origin in Top 10 E. coli cells in preparation for plasmid extraction.
Back to top05/23/13
b>After 824: possible growth Back to top
05/22/13
Procedure as preformed on pg. 38
Gel of pSB1C3 and Insert Digestion | |
---|---|
Well Number | Sample |
1 | Ladder |
2 | pSB1C3 |
3 | Clostridial Origin |
Gel of pSB1C3 and Insert Digestion after Quanitification | |
---|---|
Well Number | Sample |
1 | Ladder |
2 | pSB1C3 |
3 | Clostridial Origin |
Ligation:
Let reaction sit on bench for 90 minutes
OR
For overnight ligation: 14°C water bath
Back to top05/9/13
We’re repeating this procedure, due to that fact that days between a digestion and ligation shows to be ineffective. Hence, a ligation should be completed soon after digestion.
pSB1C3 | |
---|---|
Component | Amount (μL) |
EcoR1 | 2 |
Pst1 | 2 |
10x Buffer | 2 |
DNA | 2.5 |
PCR H2 | 11.5 |
Total | 20 |
Clostridial Origin Fragment | |
---|---|
Component | Amount (μL) |
EcoR1 | 2 |
Pst1 | 2 |
10x Buffer | 2 |
DNA | 10 |
PCR H2 | 4 |
Total | 20 |
Place in 37°C water bath for 15 minutes
Ran gel
Used wrong kit (Spin mini prep). Suppose to use PCR purification kit.
\Cleaned/purified digests
Clostridial Origin
pSB1C3
Ligation:
[(ng vector X size insert in Kb)/Size vector in Kb] X molar ratio of insert : vector = ng of insert
Since we used the wrong kit, we’re going to precipitate the DNA out (used digestion on May/9)
Phenol Chloroform Protocol pH 8:
Now we have 50μL of DNA
05/9/13
pSB1C3 = 2000 base pairs
Costridial Origin = 700 base pairs
Want to digest 500ng of backbone and 1:1 ratio of backbone to insert
pSB1C3 linearized backbone = 202.1 ng/μL
500ng of pSB1C3:
1:1 mole ratio of backbone to insert
175ng of insert:
pSB1C3 | |
---|---|
Component | Amount (μL) |
EcoR1 | 2 |
Pst1 | 2 |
10x Buffer | 2 |
DNA | 2.5 |
PCR H2 | 11.5 |
Total | 20 |
Clostridial Origin Fragment | |
---|---|
Component | Amount (μL) |
EcoR1 | 2 |
Pst1 | 2 |
10x Buffer | 2 |
DNA | 10 |
PCR H2 | 4 |
Total | 20 |
Place in 37°C water bath for 15 minutes
Back to top
05/9/13
Used QIAquick PCR Cleanup Kit and processed pSB1K3 and pSB1A3 linearized plasmid backbone PCR products
Nanodrop Quantification
---------------------------4 PICS--------------------------------------------------------- Back to top05/9/13
Well Number | Sample |
---|---|
1 | Ladder |
2 | pSB1K3 (blue Hp) (fail: pipette tip fell into well) |
3 | pSB1K3 |
4 | pSB1A3 (blue Hp) |
5 | pSB1A3 |
05/8/13
Dilute plasmid backbones to 10ng/μL
Two reactions for pSB1K3 and pSB1A3 | |
---|---|
Component | Amount (μL) |
PCR High Fidelity Supermix | 97 |
Primer 1: SB prep 3P-1 | 1 |
Primer 2: SB prep 2Ea | 1 |
Template | 10ng |
pSB1K3
pSB1A3
Thermo Cycler (x38)
02/12/13
stuff stuff stuff stuff
Back to top05/1/13
To have eight reaction vials with 50μL supermix each. Extra is made for potential pipetting error.
Component | Amount (μL) |
---|---|
Amplification Buffer 10x | 50 |
dNTP Mixture (10 mM) | 15 |
50 mM MgSO4 | 10 |
Pfx DNA Polymerase (Hf) (Spin down) | 10 |
dH2O | 415 |
Total (two different backbones) | 500 |
PCR reaction of linearized backbone in each tube | |
---|---|
Component | Amount (μL) | PCR Supermix HF | 50 |
SB prep 3P-1 | 0.4 |
SB prep 2Ea | 0.4 |
DNA | 5ng |
pSB1K3
pSB1A3
For our eight reactions, multiply all values (except supermix) above by 10 and add/mix into 250μL of supermix
Final Reaction Tube Composition | |
---|---|
Component | Amount (μL) |
PCR Supermix | 250 |
SB prep 3P-1 | 4 |
SB prep 2Ea | 4 |
pSB1K3 DNA | 50ng = 2μL |
pSB1A3 DNA | 50ng = 0.4μL |
Alliquot 55μL of supermix , primers, and template into each tube
To prepare dNTP mix
PCR for linearized backbone (actual)
Four reaction of 1 backbone | |
---|---|
Component | Amount (μL) |
10x Buffer | 25 |
Polymerase Hf (spin) | 5 |
Mg | 5 |
dNTP mix | 7.5 |
DI H2O | 203 |
Forward Primer | 2 |
Reverse Primer | 2 |
Template | 1 (may need to dilute) |
Total | 250 |
To dilute pSB1A3:(135.8 ng/μL)
1μL Template
4μL PCR dH2O
------------------pic----------------------------------------------------------We didn’t get what we were trying to amplify
Back to top Back to top04/28/13
Preformed as on pg. 15 with the following modifactions
Repeat 30x
---------------------------------pic-----------------------------32ng/μL of DNA template (pIKM1) successfully produced the Clostridial origin
PCR product was digested using QIAquick PCR purification kit
Note: If solution turns pick, the pH needs to be adjusted with 5μL of sodium acetate
Back to top04/24/13
For 0.5L
OR
04/19/13
Repeat 30x
The band we get from the gel is too small to be the origin that we want. We think that we have just been given something other than what we thought we had
Back to top04/19/13
PCR Supermix High Fidelity | 9.6mL |
Primer SB-prep 2Eb | 65μL |
Primer SB-prep 3P-1 | 65μL |
DNA Template | 100ng |
pSB1K3
pSB1A3
pSB1C3
High fidelity aliquots of 100μL for PCR
PCR
PCR Cleanup: Use Quiagen
Back to top04/9/13
Row 1 | |
---|---|
Lane | Sample |
1 | 1 Kb Plus Ladder |
2 | pIKM1 + RSA1 digest |
3 | pIKM1 |
4 | pAN1 + RSA1 digest |
5 | pAN1 |
85 Volts for 1 hour
Back to top04/8/13
Because we may have accidently stimulated the plasmid and mislabeled them previously. Since, no digestion of the plasmid pIKM1 from last weeks experiment is consistent with a methylating plasmid, today we are digesting both plasmids and running a gel.
This should verify that either we mixed up our plasmids, or we received the wrong plasmid.
1) Plasmid preparation of pAN1 and pIKM1 via Qiagen QiaPrep Spin Miniprep Unit instructions
2) Nanodrop quantification of plasmid DNA
-----------------------------PIC-----------------------------------------------3) Digest of pIKM1 and pAN1 with RSA1
pAN1
pIKM1
Compnents | pAN1 | pIKM1 |
---|---|---|
DNA | 10μL | 2μL |
RSA1 | 2μL | 2μL |
10x Buffer | 2μL | 2μL |
PCR Water | 6μL | 14μL |
TOTAL | 20μL | 20μL |
Placed in 42°C water bath for 15 minutes
Back to top04/5/13
Row 1 | |
---|---|
Lane | Sample |
1 | 1 Kb Plus Ladder |
2 | pSB1C3 + RSA1 + Xba + Invitrogen Buffer |
3 | pSB1C3 + RSA1 + Xba + Fermentas Buffer |
4 | pSB1C3 + RSA1 + Xba + Invitrogen Buffer + Fermentas Buffer |
5 | pSB1A3 + RSA1 + Xba + Invitrogen Buffer |
6 | pSB1A3 + RSA1 + Xba + Fermentas Buffer |
7 | pSB1A3 + RSA1 + Xba + Invitrogen Buffer + Fermentas Buffer |
8 | PIKM1 + RSA1 |
9 | pSB1K3 + Hind1 + Xba |
10 | Negative Control |
11 | PIKM1 |
12 | pSB1K3 |
04/3/13
Since we couldn’t find information about the Fermentas buffer needed for Xba1 and Hind3, we are going to set up our experiment in such a way that tests to see if using only the buffer from Fermentas, using the buffer from Invitrogen, or using a 1:1 mixture of the two will allow our digestion to occur in reactions where enzymes from different companies are being used.
Tubes will be labeled with the plasmid name, which enzyme used, and which buffer was used. For example
We incubated digests in 42°C water bath for 15 minutes
Back to top04/1/13
PPIKM1
Biobrick
Use a gel of 2% agarose
Regarding a digest, you typically want to match the company that produced the enzyme you’re using to the same company for the buffer. If they’re not the same, look up components and concentrations.
Back to top03/28/13
This looks to be the same size no matter the temperature. We hypothesize that either our primers are laying down non-specifically or they are oriented in the wrong direction. If it turns out our primers are fine, then we may have a different organis, than expected.
Back to top03/27/13
Preformed as outline on page 15 with the following modifications
Column | Temperature (μC) |
---|---|
2 | 50.2μC |
3 | 50.8μC |
4 | 51.7μC |
5 | 52.8μC |
6 | 54.1μC |
7 | 55.4μC |
8 | 56.7μC |
9 | 57.9μC |
10 | 58.8μC |
11 | 59.5μC |
To set up temperature gradient on thermocycler
03/25/13
PCR analysis was completed March 13, 2013
From these gels, we can see a band between 250 and 500 bases, which isn't the size of our clostridial origin. Assuming PCR worked correctly, we should see a band of approximately 1200 base pairs. Since we ran multiple cells with the same result, we are hypothesizing that an error was in the PCR reaction. Therefore, we are going to repeat PCR before we move forward by adjusting the annealing temperature.
Back to top03/15/13
Nanodrop Protocol
03/13/13
Making and Preparing Agarose Gel
Running Gel of Post-Digested pSB1C3 and pSB1A3