Team:XMU-China/Project/Protocols

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Contents

Protocols

1.Isolation of Plasmid

Using the Procedure for GenEluteTM Plasmid Miniprep Kit

•Collect 1-5 mL bacterium fluid in 1.5 mL centrifuge tube,and centrifuge fluid at 12000 r/min

•Resuspend cells. Discard the supernatant and completely resuspend the bacterial pellet with 250 µl of the Resuspension Solution

•Lyse cells. Lyse the resuspended cells by adding 250 µl of the Lysis Solution

•Neutralize. Precipitate the cell debris by adding 350 µl of the Neutralization/Binding Solution, and centrifuge fluid at 12000r/min

•Load cleared lysate. Transfer the supernatant from step 4 to the spin column. Centrifuge at 12000r/min for 1 minute, and then discard the filtrate

•Optional wash. Add 500 µl of the Optional Wash Solution to the column. Centrifuge at 12000 r/min for 1 minute. Discard the filtrate

•Wash column. Add 500 µl of the diluted Wash Solution to the column. Centrifuge at 12000r/min for 1 minute.

•Elute DNA. Transfer the column to a new collection tube. Add 50~100 µl of Eluent Solution to the column. Centrifuge at 12000 r/min for 1 minute. The DNA is now present in the filtrate and is ready for immediate use or storage at -20℃


2.Reaction system of restriction endonuclease

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System1、2、3 and 4 are used for Standard BioBrick Assembly .System 5 and 6 are used for Restriction analysis. Digestion of sample: at least 500 ng DNA / 10 µL volume. Digest for 4 h at 37 °C, afterwards inactivated by adding 10x loading buffer and standing for 10 min at room temperature.

Standard BioBrick Assembly

•Digestion of insert: 2 μg~5 μg DNA / 100 µL volume, 10x H buffer, EcoRI, SpeI. Digestion and inactivation. Clean up the insert via gel electrophoresis. When cutting the insert out of the gel, try to avoid staining or exposure to ultraviolet light of the insert.

•Digestion of vector: 2 μg~5 μg DNA / 100 µL volume, 10 x M buffer, EcoRI, XbaI. Digestion and inactivation. Clean up the insert via gel electrophoresis. When cutting the insert out of the gel, try to avoid staining or exposure to ultraviolet light of the insert.


Suffix Insertion

•Digestion of insert: 2 μg~5 μg DNA / 100 µL volume, 10x M buffer, XbaI, PstI. Digestion and inactivation. Clean up the insert.

•Digestion of vector : 2 μg~5 μg DNA / 100 µL volume, 10x H buffer, SpeI, PstI. Digestion and inactivation. Clean up the vector.


Ligation

•After digestion and clean-up, the next step is ligation. Overnight ligation at 16°C. Table 2 is the system of ligation.


Transformation

•Preparation of competent E.coli cells

•Add 10 µL plasmid to 100 µl competent cells in centrifuge tube

•Store tube on ice for 20-30 minutes

•Water bath for 90s at 42℃

•Put the tube on ice for 1-2min

•Add 790 µL LB,and cultivation for 1h at 37 ℃,then plate on selective LB-Medium.


Restriction analysis

•Pick one colony with a sterile tip and cultivation in 20ml LB for overnight at 37 ℃

•Isolation of Plasmid

•Digest BioBrick,the system of Restriction analysis refer to table1

•Gel electrophoresis:add 2 µL loading buffer to digestion mixture. An agarose concentration is 1 %.


Determining fluorescence intensity

•Add IPTG when A600 0.6~0.8.

•Cool the culture 10 minutes on ice.

•Centrifuge at 6000rpm. Wash it with pre-cooled PBS buffer.

•Use fluorescence spectrophotometer tomeasure the fluorescenceof GFP:

•Before measuring, dilute the bacteria with PBS buffer so that it can be within the measuring #range. Set excitation wavelength 491 nm, emission wavelength 511 nm.

•Transfer the measured bacteria in a new centrifuge tube and measure the OD of the bacteria.



Cell growth

•100µL suspension was inoculated from a Glycerin tube into 20ml fresh LB and incubated overnight at 37℃ and 250 r.p.m.

•100µL suspension was inoculated again from step1 into 50ml fresh LB and incubated at 37℃ and 250r.p.m

•IPTG was added when A600≈0.6-0.8

•1 ml suspension was taken on every sample taken time. 3 samples were taken in each time.

•Diluted each sample to 10-6(Sometimes 10-5),and then plate on selective LB-Medium.

•After 12h, count the number of CFU on the plate on different time point and then draw the cell growth curve.

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Site Directed Mutagenesis

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•Digest the template plasmid by adding 1 µL of DpnI and incubate for 1-2 h

•Transform 10 µL of t PCR product into competent E. coli cells

•Screen the transformants using restiction digest and sequencing


Technology

1. Instrument for Polymerase Chain Reaction

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The polymerase chain reaction, comes from the DNA polymerase used to amplify (replicate many times) a piece of DNA by in vitro enzymatic replication. The original molecule or molecules of DNA are replicated by the DNA polymerase enzyme, thus doubling the number of DNA molecules.

The polymerase chain reaction is used by a wide spectrum of scientists in an ever-increasing range of scientific disciplines. In microbiology and molecular biology, for example, PCR is used in research laboratories in DNA cloning procedures, Southern blotting, DNA sequencing, recombinant DNA technology, to name but a few. In clinical microbiology laboratories PCR is invaluable for the diagnosis of microbial infections and epidemiological studies. In our research,we use PCR to generate three point mutants by site-directed mutagenesis.

We used the PCR to characterize the following BioBricks: BBa_K658006, BBa_K658007, BBa_K658008, BBa_K658009, BBa_K658010, BBa_K658011, BBa_K658017, BBa_K658018, BBa_K658019.

2. Fluorospectro photometer

Spectrophotometry involves the use of a spectrophotometer. A spectrophotometer is a photometer (a device for measuring light intensity) that can measure intensity as a function of the light source wavelength. Important features of spectrophotometers are spectral bandwidth and linear range of absorption or reflectance measurement. The fluorospectro photometer takes advantage of a molecules property to emit light of one specific wavelength while absorbing light of a different wavelength. This feature is given by a various amount of proteins, like GFP, so that these peptides can be used as report proteins to detect other proteins by fluorospectrophotometer.

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We used the PCR to characterize the following BioBricks: BBa_K658017, BBa_K658018, BBa_K658019

3. UV-visible spectrophotometry

The most common spectrophotometers are used in the UV and visible regions of the spectrum, and some of these instruments also operate into the near-infrared region as well. Visible region 400–700 nm spectrophotometry is used extensively in colorimetry science. Ink manufacturers, printing companies, textiles vendors, and many more, need the data provided through colorimetry. We used UV-visible spectrophotometry to measure OD of bacteria.

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We used the PCR to characterize the following BioBricks: BBa_K658001, BBa_K658003, BBa_K658004, BBa_K658005. BBa_K658017, BBa_K658018, BBa_K658019.

4. Vacuum freeze dryer

The vacuum freeze drying is an advanced method for the material for the material dewatering. It freezes the moisture material in the low temperature and makes the water inside sublimate directly in the vacuum condition. Then it collects the sublimated vapor by means of the condensing way so as to dewater and dry the material. vacuum freeze dryer is used to increase concentration of product, such as Enzyme-digested products used ligation, plasmid.

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We used the PCR to characterize the following BioBricks: BBa_K658001, BBa_K658005.

5. High speed refrigerate

High speed refrigerate is useful when we prepare the competent cell. It can make Sample temperature keep at 4°C. High speed refrigerate is used when we need prepare competent cell for transformation.

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We used the PCR to characterize the following BioBricks: all of our biobrick