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Team:NTU-Taida/Result/Secretion-GLP1
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| + | |||
| + | ==Method== | ||
| + | To check whether our bacteria successfully secret GLP-1 to the environment, we collect the bacterial media and measure its GLP-1 concentration. After centrifugation of bacterial culture, we collect supernatant and pass it through 0.22 um filter to exclude bacteria. We then concentrate the solution by 5 kDa ultra centrifugal filter tubes. We also collect the bacterial pellet and lyze ''E. coli'' delicately by adding lysis buffer, followed by freeze and thaw the media to free GLP-1 inside bacteria. Both Immunoblotting and ELISA are used to detect GLP-1 concentration inside and outside bacteria. | ||
| + | |||
| + | ==Protocol== | ||
| + | |||
| + | ===A. Sample Preparation== | ||
| + | #10 μL bacterial culture was cultured in 5mL LB at 37℃, with suitable concentration of antibiotics shaking till 600 nm absorbance in cuvette is 1.5 (usually it takes about 18hr). | ||
| + | #Centrifuge the bacterial culture at 12000 rpm for 3 min. | ||
| + | #Pass the supernatant through 0.22 μm filter. Transfer the supernatant to 5 kDa ultra centrifugal filter tubes and centrifuge at 10000 rpm for 40 min. | ||
| + | #Add 250μL of ''E. coli'' lysis buffer to the pellet and use liquid Nitrogen to freeze-thaw for three cycles. | ||
| + | #Heat the samples at 95℃ for 10 min before immune-blotting. | ||
| + | |||
| + | ===B. Dot-Blotting=== | ||
| + | #Soak the PVDF membrane in ethanol for 5min to activate the membrane. | ||
| + | #Drop every 2 μL sample in a very small area on the membrane. | ||
| + | #Blocking with 5% de-fat milk (in PBST) for 1hr. | ||
| + | #Wash with PBST for 10 min, repeat 3 times. | ||
| + | #Add primary antibody (1:1000 dilution in PBST) and incubate at 4℃overnight. | ||
| + | #Wash with PBST for 10 min, repeat 3 times. | ||
| + | #Add secondary antibody (1:5000 dilution in PBST) and incubate at 25℃ 2hr. | ||
| + | #Wash with PBST for 10 min, repeat 3 times. | ||
| + | #Mix 2 mL ECL with 2mL substrate, add to the membrane and let stand for 5 min. | ||
| + | #Expose the membrane to the film in dark room. | ||
| + | |||
| + | ===C. ELISA=== | ||
| + | #Wash the wells with 250 μL Wash Buffer. | ||
| + | #Add 100 μL Assay Buffer to each well, and add 100 μL standards in ascending orders to wells, and add samples in the remaining wells. | ||
| + | #Incubate at 4℃ overnight. | ||
| + | #Decant liquid from plate. | ||
| + | #Wash 5 times with 250 μL Wash Buffer. | ||
| + | #Add 200 μL Detection Conjugate in each well. Incubate 2hr at room temperature. | ||
| + | #Wash 3 times with 250 μL Wash Buffer. | ||
| + | #Add 200 μL diluted substrate and incubate for 20 min. | ||
| + | Read plate on fluorescence plate reader with excitation/emission wavelength of 355 nm/460 nm. | ||
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{{:Team:NTU-Taida/Templates/ContentEnd}}{{:Team:NTU-Taida/Templates/Footer|ActiveNavbar=Result, #nav-Result-Secetion-GLP1}} | {{:Team:NTU-Taida/Templates/ContentEnd}}{{:Team:NTU-Taida/Templates/Footer|ActiveNavbar=Result, #nav-Result-Secetion-GLP1}} | ||
Revision as of 19:14, 26 September 2012
Secretion: GLP-1
Secretion: GLP-1
Contents |
Method
To check whether our bacteria successfully secret GLP-1 to the environment, we collect the bacterial media and measure its GLP-1 concentration. After centrifugation of bacterial culture, we collect supernatant and pass it through 0.22 um filter to exclude bacteria. We then concentrate the solution by 5 kDa ultra centrifugal filter tubes. We also collect the bacterial pellet and lyze E. coli delicately by adding lysis buffer, followed by freeze and thaw the media to free GLP-1 inside bacteria. Both Immunoblotting and ELISA are used to detect GLP-1 concentration inside and outside bacteria.
Protocol
=A. Sample Preparation
- 10 μL bacterial culture was cultured in 5mL LB at 37℃, with suitable concentration of antibiotics shaking till 600 nm absorbance in cuvette is 1.5 (usually it takes about 18hr).
- Centrifuge the bacterial culture at 12000 rpm for 3 min.
- Pass the supernatant through 0.22 μm filter. Transfer the supernatant to 5 kDa ultra centrifugal filter tubes and centrifuge at 10000 rpm for 40 min.
- Add 250μL of E. coli lysis buffer to the pellet and use liquid Nitrogen to freeze-thaw for three cycles.
- Heat the samples at 95℃ for 10 min before immune-blotting.
B. Dot-Blotting
- Soak the PVDF membrane in ethanol for 5min to activate the membrane.
- Drop every 2 μL sample in a very small area on the membrane.
- Blocking with 5% de-fat milk (in PBST) for 1hr.
- Wash with PBST for 10 min, repeat 3 times.
- Add primary antibody (1:1000 dilution in PBST) and incubate at 4℃overnight.
- Wash with PBST for 10 min, repeat 3 times.
- Add secondary antibody (1:5000 dilution in PBST) and incubate at 25℃ 2hr.
- Wash with PBST for 10 min, repeat 3 times.
- Mix 2 mL ECL with 2mL substrate, add to the membrane and let stand for 5 min.
- Expose the membrane to the film in dark room.
C. ELISA
- Wash the wells with 250 μL Wash Buffer.
- Add 100 μL Assay Buffer to each well, and add 100 μL standards in ascending orders to wells, and add samples in the remaining wells.
- Incubate at 4℃ overnight.
- Decant liquid from plate.
- Wash 5 times with 250 μL Wash Buffer.
- Add 200 μL Detection Conjugate in each well. Incubate 2hr at room temperature.
- Wash 3 times with 250 μL Wash Buffer.
- Add 200 μL diluted substrate and incubate for 20 min.
Read plate on fluorescence plate reader with excitation/emission wavelength of 355 nm/460 nm.
