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Cryopreservation is a technique that store cells at a very low temperatures (-80℃) to reduce cell metabolic damage and enable long-term storage.

1. Add cryoprotectant: Add 80% glycerin 500μL and bacterial fluid 1 000μL into Cryopreservation vials. Mix upside down gently.
2. Seal the vials: Stick sellotape around the label.
3. Store the vials: Store prepared vials in refrigerator at -80℃.

Bacteria preserved at -80 ℃ need to be recovery to restores cell growth.

1. Prepare plate: Take out the plate with relevant resistance from 4 degrees and wait for the temperature to the room temperature. Mark at the bottom of the plate.
2. Recover the cell: The -80 ° C frozen strain was removed and placed on the ice quickly. Take a ring of the upper layer of melt bacteria liquid by the sterilized inoculation ring. Coated the plate and draw a line.
3. Culture the recovered cell: Incubate at 37 degrees overnight./li>

PCR is performed for amplify DNA fragments in our project.

1. Set up PCR system (25 µl):

   Reagent	Volume
   ddH2O	To 25 µl
   2 x Phanta Max Buffer	12.5 µl
   dNTP	0.5 µl
   Phanta	0.5 µl
   Template	Plasmid: 0.5 µl PCR product: 1 µl
   Forward Primer	1 µl
   Reverse Primer	1 µl

2. Place the PCR tubes in a PCR amplifier.
3. Set up reaction program:

   Procedure	Temperature	Time	Cycle
   Initialization	95℃	30s	1
   Denaturation	95℃	15s	40
   Annealing	72℃	15s
   Extension	72℃	30s/kb
   Final elongation	72℃	5min	1

4. Incubate: Incubate at 16℃ until the PCR product is picked up.

Colony PCR is performed to determine whether we insert DNA into plasmid successfully.

1. Set up colony PCR system (10 µl):

   Reagent	Volume
   ddH2O	To 10 µl
   10 x Taq Buffer	1 µl
   dNTP	0.2 µl
   Taq DNA Polymerase	0.2 µl
   Colony Template	1 µl
   Forward Primer	0.4 µl
   Reverse Primer	0.4 µl

2. Place the PCR tubes in a PCR amplifier.
3. Set up reaction program:

   Procedure	Temperature	Time	Cycle
   Initialization	94℃	5min	1
   Denaturation	94℃	30s	25
   Annealing	72℃	30s
   Extension	72℃	1min/kb
   Final elongation	72℃	7min	1

4. Incubate: Incubate at 8℃ until the PCR product is picked up.

Agarose gel electrophoresis is performed to separate and confirm whether our plasmids were constructed properly.

1. Make gel solution: Add 0.7g agarose, 70ml TAE buffer into a glass bottle and heat in a micro-oven for 2 min. Cool the liquid agarose gel to lower than 60℃ and decant the liquid agarose gel into an agarose gel tank. Add 8 μl EB into the liquid agarose gel and place the electrophoresis comb.
2. Load the gel: Place the solid agarose gel in an electrophoresis device. Add 10xDNA Loading Buffer in the DNA sample, mix them up gently and carefully pipette the sample into the sample loading chambers.
3. Electrophoresis: Cover the lid of the electrophoresis device, set the electrophoresis time and start electrophoresis.

DNA Gel Extraction is to extract desired DNA from an agarose gel after agarose gel electrophoresis.

1. Cut the DNA gel: place the gel under UV light and find the DNA band of the desired nucleotide length. b) Cut the gel containing desired DNA and put it into an Eppendorf tube.
2. Melt the DNA gel: Use Vazyme® DNA Gel Extraction Kit. Add 300 μl buffer GDP to the Eppendorf tube and incubate at 55℃. Spin briefly.
3. Pure the DNA gel: Insert a Fast Mini Columns-G into a 2 ml Collection Tube, transfer the solution maximally of 700 μl once a time to a filtration column, centrifuge at 12,000 x g for 30 ~ 60 sec. Discard the filtrate and reuse the Collection Tube, add 600 μl of Buffer GW (with ethanol added) to the filtration column, centrifuge at 12,000 x g for 60 sec. Pure the left solution in the same way.
4. Filtrate DNA: Discard the filtrate and reuse the Collection Tube, centrifuge the empty column at 12,000 x g for 2 min. Insert the column into a clean 1.5 ml Eppendorf tube and incubate at 55℃ for 5 min. Add 7 μl ~ 30 μl of ddH2O (incubated at 55℃ in advance) to the center of the column membrane, incubate at room temperature for 2 min, and then centrifuge at 12,000 x g for 1min. Discard the filtration column. Measure the DNA concentration by Nanodrop 2000.
5. Store DNA at -20℃.

Double digestion reaction is performed to create mismatch ends for directional insertion.

1. Add DNA fragment and vector at a mole ratio of 2:1~4:1 (total 1μg), 5 μl NEB CutSmart buffer, 1 μl of both restriction enzymes and ddH2O up to 50 μl to set up the reaction.
2. Incubate at 37℃ overnight.

ClonExpress ligation reaction is performed to insert our DNA fragments into vector.

1. Set up ClonExpress ligation system:

   Reagent	Volume
   ddH2O	To 5 µl
   DNA fragment	0.02*bp ng
   vector	0.01*bp ng
   2 x ClonExpress Mix	2.5 µl

Plasmid transformation is performed to transfer plasmids into the host bacteria. We transform our plasmids into DH5α E.coli to amplify them and BL21 to testify function of our plasmids.

1. Thaw all reagents on ice. And add 20 μl competent E.coli cells into the ligation product.
2. Heat shock at 42℃ for 45 sec and then cool the mixture on ice for 2 min.
3. Add 900 μl liquid SOC or LB medium (without antibiotic) into the mixture and shaking culture at 37℃ for 1h.
4.  Evenly spread the liquid culture on a solid culture medium and incubate at 37℃ overnight for colonies forming on the plate.

Plasmid Miniprep is performed to is extract plasmid DNA from bacteria.

1. Harvest 1~ 5 ml overnight cultured (12 ~ 16 hours) bacterial cells into a centrifuge tube, centrifuge at 10,000 x g for 1 min, discard the supernatant and invert the tube on the absorbent paper to dry.
2. Add 250 μl of Buffer P1 (add RNase A before use), mix thoroughly by vortex or pipetting up and down.
3. Add 250 μl of Buffer P2, mix thoroughly by softly inverting the tube 8 ~ 10 times to assure complete lysis.
4. Add 350 μl of Buffer P3, mix gently and thoroughly by inverting the tube 8 ~ 10 times to neutralize Buffer P2 until a flocculent white precipitate forms and centrifuge at 13,000 x g for 10 min.
5. Insert a FastPure DNA Mini Column into a 2 ml Collection Tube, transfer the supernatant from step 4 to the Filtration Column, centrifuge at 13,000 x g for 30 ~ 60 sec, discard the filtrate and reuse the Collection Tube.
6. Add 600 μl of Buffer PW2 (with ethanol added in) to the Filtration Column, centrifuge at 13,000 x g for 30 ~ 60 sec, discard the filtrate and reuse the Collection Tube. Centrifuge the empty Filtration Column for l min at 13,000 x g.
7. Insert the Column into a clean 1.5 ml microcentrifuge tube, add 30 ~ 100 μl of Elution Buffer to the center of the Column membrane, incubate at room temperature for 2 min, centrifuge at 13,000 x g for 1min. Discard the Filtration Columns, store DNA at -20℃.

Cryopreservation is a technique that store cells at a very low temperatures (-80℃) to reduce cell metabolic damage and enable long-term storage.

1. Add cryoprotectant: Add 80% glycerin 500μL and bacterial fluid 1 000μL into Cryopreservation vials. Mix upside down gently.
2. Seal the vials: Stick sellotape around the label.
3. Store the vials: Store prepared vials in refrigerator at -80℃.

Cryopreservation is a technique that store cells at a very low temperatures (-80℃) to reduce cell metabolic damage and enable long-term storage.

1. Add cryoprotectant: Add 80% glycerin 500μL and bacterial fluid 1 000μL into Cryopreservation vials. Mix upside down gently.
2. Seal the vials: Stick sellotape around the label.
3. Store the vials: Store prepared vials in refrigerator at -80℃.

Cryopreservation is a technique that store cells at a very low temperatures (-80℃) to reduce cell metabolic damage and enable long-term storage.

1. Add cryoprotectant: Add 80% glycerin 500μL and bacterial fluid 1 000μL into Cryopreservation vials. Mix upside down gently.
2. Seal the vials: Stick sellotape around the label.
3. Store the vials: Store prepared vials in refrigerator at -80℃.

Cryopreservation is a technique that store cells at a very low temperatures (-80℃) to reduce cell metabolic damage and enable long-term storage.

1. Add cryoprotectant: Add 80% glycerin 500μL and bacterial fluid 1 000μL into Cryopreservation vials. Mix upside down gently.
2. Seal the vials: Stick sellotape around the label.
3. Store the vials: Store prepared vials in refrigerator at -80℃.

Cryopreservation is a technique that store cells at a very low temperatures (-80℃) to reduce cell metabolic damage and enable long-term storage.

1. Add cryoprotectant: Add 80% glycerin 500μL and bacterial fluid 1 000μL into Cryopreservation vials. Mix upside down gently.
2. Seal the vials: Stick sellotape around the label.
3. Store the vials: Store prepared vials in refrigerator at -80℃.

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Name	Item Name	Item Price
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Alan	Jellybean	$3.76
Jonathan	Lollipop	$7.00

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