Difference between revisions of "Team:Alverno CA/Protocols"

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<h3><center>Making the Agarose Gel</center></h3>
 
<h3><center>Making the Agarose Gel</center></h3>
 
<p>      *Note: Pipettes are needed. </p>
 
<p>      *Note: Pipettes are needed. </p>
<p><center><img src="https://static.igem.org/mediawiki/2016/5/50/T--Alverno_CA--ProtocolPicture_Gel.png" alt="A Picture of a Gel style="width: 20;"></center></p>
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<p><center><img src="https://static.igem.org/mediawiki/2016/5/50/T--Alverno_CA--ProtocolPicture_Gel.png" alt="A Picture of a Gel style="width: 20"></center></p>
 
<center><p>Ingredients/Materials: *</p></center>
 
<center><p>Ingredients/Materials: *</p></center>
 
<p>- 0.6g agarose </p>
 
<p>- 0.6g agarose </p>

Revision as of 22:22, 6 October 2016

Alverno iGEM 2016

Alverno iGEM 2016

Alverno iGEM Logo

Protocol

Making the Agarose Gel

*Note: Pipettes are needed.

A Picture of a Gel style=

Ingredients/Materials: *

- 0.6g agarose

- 50mL TBE 1x

- 5μL SYBRsafe / 2.5μL EcoStain (light- and heat-sensitive)

- 250mL conical flask

- scale

- Microwave

- Gel mold

Directions:

1. Weigh 0.6g of agarose into flask.

2. Add 50mL of TBE 1x Buffer

3. Microwave agarose solution until dissolved for 1 min (take out halfway to swirl)

(If the liquid looks distorted, agarose solution need to be microwaved more)

4. Cool slightly and add SYBRsafe or EcoStain

5. Pour gel into mold and put the combs into their spots

6. Cool until solidified.

Gel Electrophoresis & Screening the gel

Ingredients/Materials: *

- TBE 1x Buffer

- agarose gel (w/ right number of wells)

- DNA reaction (either parts=PUCTV, or PCR check for GG plasmids)

- purple loading dye

- Gel box

Directions:

1. Place agarose gel into gel box with wells on negative side.

2. Fill up gel box up with TBE 1x Buffer up to line or at least above gel.

3. Pipette 6ul of 2-log ladder on side lanes (or given wells).

4. Pipette 1ul of purple loading dye on parafilm. Then pipette 5ul of DNA reaction and mix with loading dye on parafilm. (*For PCR Check: Directly pipette 2ul of purple loading dye into 10ul of PCR Check Reaction in microfuge tube)

5. Set to 6ul and pipette 6ul of mixed reaction with loading dye into selected wells according to drawn diagram. See gel picture.

6. Set machine to 175V and for 20 minutes. Make sure bubbles are appearing!

7. After running place gel onto transilluminator (must be off) in glove box. Place box over it with hole and then place iPad above it and set to either video or time-lapse. Then turn on transilluminator within closed glove box while videotaping.

8. Results can now be analyzed.

PCR (Polymerase Chain Reaction) for Parts:

Ingredients:

- 2.5μL Part Forward Primer

- 2.5μL Part Reverse Primer

- 0.1μL G-block / DNA template

- 25μL Q5 2x High-Fidelity MasterMix

- 19.9μL NFW (nuclease free water)

Materials: *

- Centrifuge

- Thermocycler

- Mini microfuge PCR tube(s)

Directions:

1. Mix above ingredients listed together in microfuge PCR tube. (Notice to add MasterMix last.)

2. Spin in centrifuge.

3. Put in thermocycler. Process it in thermocycler as follows:

Step 1: 98°C for 30 sec

Step 2: 98°C for 10 sec

Step 3: 70°C for 20 sec

Step 4: 72°C for 20-30sec/kilobase (typically)

Step 5: Enter “Go To” and then Step 2 and repeat for 25 cycles (or “times”)

Step 6: 72°C for 2 min

Step 7: 4°C for ∞ (Set to 00:00:00)

Step 8: End

PCR Purification of DNA:

Ingredients/Materials: *

- PCR reaction(s) (DNA Part(s))

- Molecular Biology Kit, which includes:

- Buffer B3 (with pre-added isopropyl alcohol)

- Wash Solution (with pre-added ethanol)

- Elution Buffer

- EZ-10 column(s)

- 1.5mL microfuge tube(s)

Directions: (for each PCR reaction)

1. Transfer PCR reaction mixture (usually 50ul, ranges from 35-50ul) to a 1.5mL microfuge tube and add 5 volumes (5 x amount of PCR reaction mixture) of Buffer B3 (with pre-added isopropyl alcohol).

2. Transfer above mixture to EZ-10 column and leave at room temperature for 2 minutes. Centrifuge at 10,000rpm for 2 minutes.

3. Remove/empty flow-through in bottom tube. Add 750ul of Wash Solution (with pre-added ethanol) and centrifuge at 10,000rpm for 2 minutes.

4. Repeat washing procedure (from Step 3, “Add 750ul of…”). Remove/empty flow-through again. Spin at 10,000rpm for an additional minute. Throw away bottom clear tube with any remaining liquid.

5. Place top tube with white filter into clean 1.5mL microfuge tube. Check for ethanol using pipette tip.

6. Add 30-50uL (usually 40uL) of Elution Buffer to center of tube. Incubate at room temperature for 2 minutes. Centrifuge at 10,000rpm for 2 minutes to elute DNA.

7. Store at -20 degrees Celsius, or nanodrop for concentration and for dilutions (see Parts Dilutions Protocol).

Parts Dilutions:

Ingredients/Materials: *

- NFW

- PCR Purified DNA Part Reaction (nanodropped with concentration)

- 1.5mL microfuge tube

Directions:

1. Identify number of bases and the concentration (in ng/uL, which is basically ug/mL).

2. Plug in numbers (bases and concentration) into Promega Biomath Calculator to convert from ug/mL (or ng/uL) to pmol/uL

(http://www.promega.com/a/apps/biomath/index.html?calc=ugmlpmolul).

3. Multiply resulting number by 1000 and that is the concentration in nM.

4. Plug into dilution equation: C1*V1=(30nM)(V2), where C1 is the concentration in nM, and V2 is equal to the amount wanted (typically 10uL-20uL). Then solve for V1.

5. Put in the amount of V1 of selected Part in 1.5mL microfuge tube.

6. Subtract V1 from V2. Put this amount of NFW into the tube.

7. Centrifuge.

8. Store at -20 degrees Celsius.

Golden Gate Assembly for Plasmids (Example with Golden Gate Assembly Protocol for GG37-52; multiple GG Assembly for Plasmids can be done at a time in different tubes as seen in example)

Ingredients: (per Golden Gate Assembly)

- 1μL: P part (i.e. P1a, P2a, P3a, P4a)

- 1μL: UC part (i.e. UC1a, UC2a, …, UC8a, etc.)

- 1μL: T part (i.e. T1a, T2a, T3a, T4a)

- 1μL: V part (i.e. V19d, V1a, V2a, etc.)

- 1μL: GFP Mut Parts: P1ab, P2ab, T3ab, T4ab (Note: for all parts with GFP, matches according to Part, see combos image for example; some do not have GFP Mut parts and so add 1ul to NFW amount instead)

- 1.5μL: T4 Ligase Buffer

- 0.15μL: 100x BSA Standard

- 1μL: BsaI

- 2μL: T4 Ligase (2M cohesive units)

- 5.35μL NFW

Materials: *

- Centrifuge

- Thermocycler

- Mini microfuge tube(s)

Directions:

1. Write down combos of plasmid(s) (Insert picture. 08/29/16 protocol by Melody Wu)

2. Mix above ingredients in labelled mini microfuge tube(s).

3. Spin down in centrifuge.

4. Put in thermocycler, process it in thermocycler as follows:

Step 1: 37°C for 3 min

Step 2: 16°C for 4 min

Step 3: Go to Step 1 and repeat for 25 cycles

Step 4: 50°C for 5 min

Step 5: 80°C for 5 min

Step 6: 4°C for ∞ (Set to 00:00:00)

Step 7: End

PCR Check for Golden Gate Plasmids (multiple can be done at a time in different tubes)

Ingredients:

- 0.5μL V part forward sequencing primer

- 0.5μL V part reverse sequencing primer

- 0.1μL GG Assembly

- 5μL 2x MasterMix

- 3.9μL NFW

Materials: *

- Centrifuge

- Thermocycler

- Mini microfuge tube(s)

Directions:

1. Mix above ingredients in mini microfuge tube(s).

2. Spin in centrifuge.

3. Put it in thermocycler, process it in thermocycler as follows:

Step 1: 98°C for 30 sec

Step 2: 98°C for 10 sec

Step 3: 56°C for 20 sec

Step 4: 72°C for 20-30sec/kilobase (typically)

Step 5: Enter “Go To” and then Step 2 and repeat for 25 cycles (or “times”)

Step 6: 72°C for 2 min

Step 7: 4°C for ∞ (Set to 00:00:00)

Step 8: End

Making LB Media (& Autoclaving)

Ingredients:

-LB powder

-Distilled water

Materials:

-Scale

-Glass bottle

-Autoclave

Directions:

1. Measure out 5g LB powder.

2. Add LB powder to the bottle.

3. Add 250mL distilled water to bottle.

4. Autoclave for ~30 min.

To Autoclave:

a. Fill autoclave with water until it covers metal ring.

b. Place metal bucket in autoclave. Put in metal dish. Place bottle (or item(s) to autoclave) at center.

c. Put lid on with the dangly metal cord in place.

d. Bolt on bolts tightly to seal the lid.

e. Open both manual release valves.

f. Plug in and turn on switch.

g. Wait until steam comes out of valve and wait 5 more minutes.

h. Close both valves and wait for temperature to rise.

i. Switch off the autoclave before it reaches red at 0.15.

j. Maintain between 0.1 and 0.5 for 30 min.

k. After complete, switch off and wait until pressure goes down back to 0.

l. Open manual valves and release steam.

Making LB Agar Plates w/ Antibiotic Resistance

Ingredients:

- 300ml H2O

- 6g LB Powder

- 4.5g Agar Powder

- Antibiotic (usually use Kanamycin - 1μL per 1mL H2O)

Materials: *

- Autoclave

- Scale

- Glass bottle

Directions:

1. Measure out the LB and Agar. Pour into a glass bottle and then pour in distilled water up to 300mL line.

2. Mix the above ingredients.

3. Autoclave for 30 minutes.

4. Cool down to around 50°C (~122°F).

5. Add 300μL Kanamycin (or chosen antibiotic, added accordingly).

6. Open lid to each plate carefully and pour plate near flame.

Bacterial Transformation of Plasmids (& Growing Liquid Cultures)

Ingredients/Materials: *

- DNA GG Plasmid Mixture

- Competent Cells

- SOC Media (or LB Media if SOC is contaminated…)

- 2ml Microtubes

- Tube Rack

- Ice

- Timer

- 42°C Water Bath (set early on!)

- 37°C Incubator (set early on!)

- Petri Plates with LB agar and antibiotic

- Sterile Spreader or sterile glass beads

Directions:

1. Thaw competent cells on ice. (If delicate, take out after step 3, and do step 2 after step 3)

2. Pipette 20μL of competent cells into 2mL tube.

3. Pipette 1μL of control DNA into 2mL tube.

4. Pipette 1μL of resuspended DNA into 2mL tube.

5. Close 2ml tubes and incubate on ice for 30 minutes.

6. Heat shock tubes at 42°C for 1 minute.

7. Incubate on ice for 5 minutes.

8. Pipette 200μL SOC media (or LB media) to each transformation.

9. Incubate at 37°C for 2 hours—in incubator.

10. Pipette each transformation on petri plates (labelled!).

11. Incubate transformations overnight (14-18 hours) at 37°C.

Next Day:

12. Pick single colonies. Transfer each single colony to a gridded plate (labelled), dip pipette tip into PCR reaction to do a colony PCR to verify part size, then place tip into liquid culture to grow up liquid cell cultures.

13. To do Colony PCR, create mixture according to PCR Check for Golden Gate Plasmids Protocol without 0.1uL of GG Assembly (or DNA Plasmid). Put in the MasterMix as well.

14. After picking colony with pipette tip dip into reaction mixture and then put PCR reaction into the thermocycler and continue PCR protocol.

15. Incubate gridded plate and the liquid cultures at 37°C overnight. Take out the next morning and store in refrigerator (4°C).

Plate Reading (for Fluorescence, Absorbance, Induction, etc.)

Ingredients/Materials: *

- Liquid cultures

- 96 well plate (A-H by 1-12)

- Plate Reader (we use VICTOR X3)

- LB Media

Directions:

1. Pipette in 100uL per well for each liquid culture. Place plate into reader. Set protocol to absorbance and hit run (green arrow button).

2. Measure Absorbance at 600nm for all samples in all standard measurement modes in plate reader.

3. Import data into Excel Sheet after run is finished. Use Normalization sheet tab and copy over. Enter data accordingly.

4. Record the data, specifically volume of preloading culture and preloading media from the table in the notebook.

5. Dilute accordingly (media is LB media with antibiotic) in a new 96 well plate (if needed). Usually 500uL per well.

6. Place plate back into reader and set to OD-RFP-GFP protocol and start run.

7. Let it run overnight (120 runs total with about 30 second intervals) and check in the morning.

8. Import data results into Excel spreadsheet. Upload to Google drive.

9. To analyze data using Python program—file must be in csv format. (If you would like the code for analyzing this type of data, please contact us!)

For any questions about Protocols, email: alverno.igem@gmail.com