Saturday, October 6, 2007
Identification and Quantitation of Stenotrophomonas maltophilia periplasmic proteins using 2-D Gel Electrophoresis and MALDI
Hi guys, after talking about Biosafety for my 1st 2 postings, today I am going to talk about my MP work flow:Identification and Quantitation of Stenotrophomonas maltophilia periplasmic proteins using 2 Dimensional Gel Electrophoresis and Matrix Assisted Laser Desorption Ionization Mass Spectrometry (2D Gel-MALDI)
For my project, Stenotrophomonas maltophilia (S. maltophilia) was the bacteria used. It is a gram negative bacteria thus it has a relatively large periplasmic space(periplasm) as compared to gram positive bacteria.
Work flow:
S. maltophilia was streaked on the nurtient agar plate and incubated in a 37ºC incubator for 24 hours. After which all colonies will be scraped off the agar plate and reusepened in 5mL of PBS and the cell density is taken. 5X107 cells will then be inoculated into each LB broth and grown at 28ºC and 37ºC in 20mL LB- broth for 18 hours. Cells will be subjected to washing using PBS for the purpose of removing dead cells and proteins that are released due to cell lysis.
Picture taken from: http://rds.yahoo.com/_ylt=A9ibyiCO_gZHbVkAowyjzbkF/SIG=1300lqsrd/EXP=1191727118/**http://www.cofc.edu/~delliss/virtuallabbook/StreakPlates/StreakExamples.html
This is the procedure for cell washing:
1. Take out the cells from the incubator and spin at 3000g for 20 minutes at 10ºC
2. Discard the supernatant into a waste bottle
3. Pipette 10mL of PBS
4. Pipette well and vortex at low speed to resuspend the cells
5. Spin down centrifuge tubes at 3000g for 20 minutes at 10ºC
6. Repeat step 2 to step 5 twice
7. Resuspend the cells in 10mL of PBS
8. Pipette well and vortex at low speed to resuspend the cell pellet
Density of the live cells will then be determined. 6 eppendorf tubes cotaining each
10 to the power of 10 cells will be subjected to extraction using chloroform
This is the procedure for chloroform shock:
1. Spin down cells at 3000g for 20 minutes at 10oC
2. Resuspend pellet in remaining medium by brief vortexing
3. Add 20uL of chloroform to each eppenforf tube
4. Incubate at room temperature for 15 minutes
5. Combine the 6 eppendorf tubes together
6. Add 400uL of 0.1M Tris-HCl to the combined eppendorf tubes
7. Spin at 6000g for 20 minutes
8. Pipette out supernatant in a new eppendorf tube
9. Spin at 14000g for 10 minutes
10. Pipette supernatant in a new eppendorf tubes
Once periplasmic proteins are extracted, microcon purification is done. The purpose of microcon purification is to further concentrate the protein samples
Micron picture. Taken from: http://www.life.sci.qut.edu.au/epping/LSB607OLT/607concentrators.html
Then Bradford assay
will be done to give a estimation of the protien concnetration
Taken from: http://www.biocompare.com/review/926/Quick-Start(tm)-Bradford-Protein-Assay-Kits-From-Bio-Rad.html
Once the protien concentration is determined, 2D gel electrophoresis will be done. Basically protiens will be 1st separated according to their pI by isolecetric focusing (IEF) after which according to their molecular weight (for information on how 2D gel electrophoresis is done, refer to Jia xin's blog on Aug 4, 2007)
BIO-RAD PROTEAN IEF CELL used for IEF (picture taken with permission)
BIO-RAD Criterion Dodeca™ Cell used to separate the protein sample according to molecular weight (picture taken with permission)
Once the proteins are separated, the gel is stained with SYPRO RUBY stain for 16 hours and scanned with PharosFX™ Plus Molecular Imager (for information pls refer to MIng Boon's 17th Aug posting)
This is how a SYPRO RUBY stained gel looks like ( picture taken with permission)
This is the PharosFX™ Plus Molecular Imager which I used ( picture taken with permission)
Once the gel is sacnned, quantitation will be done using a software program:PDQuest. PDQuest will allow us to quantitate the gel spots (for this research project, we want to quantify protein spots present in 28ºC and 37ºC with 2-folds) After Quantitation, gel spots will be slected, cut and automatic process by Xcise ( I won't dicsuss about how Xcise works, it was discussed in Ming Boon's posting on 07/07/07)
Xcise machine from Shimadzu Biotech, proteome systems, Japan (Picture taken with permission)
After processing by Xcise, the protein will be spotted on the MALDI plate and subjected to MALDI analysis. The picture below is the MALDI machine used
(picture taken with permission by my supervisor)
end of story=).......
...feel free to ask any question
Eugene Wong
TGO2
For my project, Stenotrophomonas maltophilia (S. maltophilia) was the bacteria used. It is a gram negative bacteria thus it has a relatively large periplasmic space(periplasm) as compared to gram positive bacteria.
Work flow:
S. maltophilia was streaked on the nurtient agar plate and incubated in a 37ºC incubator for 24 hours. After which all colonies will be scraped off the agar plate and reusepened in 5mL of PBS and the cell density is taken. 5X107 cells will then be inoculated into each LB broth and grown at 28ºC and 37ºC in 20mL LB- broth for 18 hours. Cells will be subjected to washing using PBS for the purpose of removing dead cells and proteins that are released due to cell lysis.
Picture taken from: http://rds.yahoo.com/_ylt=A9ibyiCO_gZHbVkAowyjzbkF/SIG=1300lqsrd/EXP=1191727118/**http://www.cofc.edu/~delliss/virtuallabbook/StreakPlates/StreakExamples.html
This is the procedure for cell washing:
1. Take out the cells from the incubator and spin at 3000g for 20 minutes at 10ºC
2. Discard the supernatant into a waste bottle
3. Pipette 10mL of PBS
4. Pipette well and vortex at low speed to resuspend the cells
5. Spin down centrifuge tubes at 3000g for 20 minutes at 10ºC
6. Repeat step 2 to step 5 twice
7. Resuspend the cells in 10mL of PBS
8. Pipette well and vortex at low speed to resuspend the cell pellet
Density of the live cells will then be determined. 6 eppendorf tubes cotaining each
10 to the power of 10 cells will be subjected to extraction using chloroform
This is the procedure for chloroform shock:
1. Spin down cells at 3000g for 20 minutes at 10oC
2. Resuspend pellet in remaining medium by brief vortexing
3. Add 20uL of chloroform to each eppenforf tube
4. Incubate at room temperature for 15 minutes
5. Combine the 6 eppendorf tubes together
6. Add 400uL of 0.1M Tris-HCl to the combined eppendorf tubes
7. Spin at 6000g for 20 minutes
8. Pipette out supernatant in a new eppendorf tube
9. Spin at 14000g for 10 minutes
10. Pipette supernatant in a new eppendorf tubes
Once periplasmic proteins are extracted, microcon purification is done. The purpose of microcon purification is to further concentrate the protein samples
Micron picture. Taken from: http://www.life.sci.qut.edu.au/epping/LSB607OLT/607concentrators.html
Then Bradford assay
will be done to give a estimation of the protien concnetrationTaken from: http://www.biocompare.com/review/926/Quick-Start(tm)-Bradford-Protein-Assay-Kits-From-Bio-Rad.html
Once the protien concentration is determined, 2D gel electrophoresis will be done. Basically protiens will be 1st separated according to their pI by isolecetric focusing (IEF) after which according to their molecular weight (for information on how 2D gel electrophoresis is done, refer to Jia xin's blog on Aug 4, 2007)
BIO-RAD PROTEAN IEF CELL used for IEF (picture taken with permission)
BIO-RAD Criterion Dodeca™ Cell used to separate the protein sample according to molecular weight (picture taken with permission)
Once the proteins are separated, the gel is stained with SYPRO RUBY stain for 16 hours and scanned with PharosFX™ Plus Molecular Imager (for information pls refer to MIng Boon's 17th Aug posting)
This is how a SYPRO RUBY stained gel looks like ( picture taken with permission)
This is the PharosFX™ Plus Molecular Imager which I used ( picture taken with permission)
Once the gel is sacnned, quantitation will be done using a software program:PDQuest. PDQuest will allow us to quantitate the gel spots (for this research project, we want to quantify protein spots present in 28ºC and 37ºC with 2-folds) After Quantitation, gel spots will be slected, cut and automatic process by Xcise ( I won't dicsuss about how Xcise works, it was discussed in Ming Boon's posting on 07/07/07)
Xcise machine from Shimadzu Biotech, proteome systems, Japan (Picture taken with permission)After processing by Xcise, the protein will be spotted on the MALDI plate and subjected to MALDI analysis. The picture below is the MALDI machine used
(picture taken with permission by my supervisor)
end of story=).......
...feel free to ask any question
Eugene Wong
TGO2
# posted by Star team @ 10:42 AM 
Comments:
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Hi Eugene,
After reading your post, I don't understand the purpose of conducting an identification and quantitation for this bacteria. What is the significance of performing such experiment in the medical field?
I'm interested on how the chloroform works for the extraction of periplasmic proteins. Can you elaborate on the principles behind of the chloroform shock procedure?
Thanks! =p
Loh Sharon, Tg01
After reading your post, I don't understand the purpose of conducting an identification and quantitation for this bacteria. What is the significance of performing such experiment in the medical field?
I'm interested on how the chloroform works for the extraction of periplasmic proteins. Can you elaborate on the principles behind of the chloroform shock procedure?
Thanks! =p
Loh Sharon, Tg01
Dear Sharon
This posting is about my MP not SIP. With regards to the significance of performing such experiment in the medical field, this experiment was conducted because S. maltophilia cause nosocomial infections ar the number of cases are increasing rapidly. This project will allow us to identify proteins within the periplasmic region and determine (quantify) which particular protein is higher at human body temperature. With this, it may allow us to develop therapeutic agent for the purpose of disease treatment and prevention.
As for the mechanism of chloroform shock, it is unknown up till this point but the fact it is used to extract periplasmic proteins, giving close to 0% of cell lysis
Eugene Wong
TG02
This posting is about my MP not SIP. With regards to the significance of performing such experiment in the medical field, this experiment was conducted because S. maltophilia cause nosocomial infections ar the number of cases are increasing rapidly. This project will allow us to identify proteins within the periplasmic region and determine (quantify) which particular protein is higher at human body temperature. With this, it may allow us to develop therapeutic agent for the purpose of disease treatment and prevention.
As for the mechanism of chloroform shock, it is unknown up till this point but the fact it is used to extract periplasmic proteins, giving close to 0% of cell lysis
Eugene Wong
TG02
Hi eugene,
Wow, the steps are definitely complicated!
Care to explain further the principle of bradford assay? And why is the concentration of the protein needed?
Valerie
=X
Wow, the steps are definitely complicated!
Care to explain further the principle of bradford assay? And why is the concentration of the protein needed?
Valerie
=X
Hi Valerie,
Brilliant Blue G-250 dye (Bradford reagent) binds to proteins. The dye exists in three forms: cationic (red), neutral (green), and anionic (blue). Under acidic conditions (ie proteins do not bind with the Bradford reagent), the dye is predominantly in the doubly protonated red cationic form. However, when the dye binds to protein, it is converted to a stable unprotonated blue form. It is this blue protein-dye form that is detected at 595 nm in the assay using a microplate reader.
2D gel electrophoresis requires protein concentration of more than 50ug and lesser that 250ug. Therefore Bradford assay will allow us to give a rough gauge of our sample protein concentration.
Hope u undersatnd. See u =)
Eugene Wong
TG02
Brilliant Blue G-250 dye (Bradford reagent) binds to proteins. The dye exists in three forms: cationic (red), neutral (green), and anionic (blue). Under acidic conditions (ie proteins do not bind with the Bradford reagent), the dye is predominantly in the doubly protonated red cationic form. However, when the dye binds to protein, it is converted to a stable unprotonated blue form. It is this blue protein-dye form that is detected at 595 nm in the assay using a microplate reader.
2D gel electrophoresis requires protein concentration of more than 50ug and lesser that 250ug. Therefore Bradford assay will allow us to give a rough gauge of our sample protein concentration.
Hope u undersatnd. See u =)
Eugene Wong
TG02
hi eugene,
y cantuse a western blot to detect ur proteins? and can i wad u meant by "we want to quantify protein spots present in 28ºC and 37ºC with 2-folds)". and how do u identify ur protein using MALDI analysis? sorry for bombarding u with questions and thanks..
Ai Tee
TG 01
y cantuse a western blot to detect ur proteins? and can i wad u meant by "we want to quantify protein spots present in 28ºC and 37ºC with 2-folds)". and how do u identify ur protein using MALDI analysis? sorry for bombarding u with questions and thanks..
Ai Tee
TG 01
Hi Ai Tee
We don't use western blot to detect proteins because it takes a long time. If let say, a new protein is being identified, there will be no antibodies to detect these new proteins. Also, we can't determine things like molecular weight,pI of the protein and the % of protein coverage.
In terms of quantitation, we want to idenify proteins that are expressed twice more in 37ºC than 28ºC, or vice versa.
For MALDI analysis, protein samples are spotted on the MALDI plate, a laser will hit on all the samples on each spot after which the top 10 hits will be further broken down by the laser and these peptides will then be analysed by the detector and a database search will be performed to identify these proteins.
Hope u understand.
We don't use western blot to detect proteins because it takes a long time. If let say, a new protein is being identified, there will be no antibodies to detect these new proteins. Also, we can't determine things like molecular weight,pI of the protein and the % of protein coverage.
In terms of quantitation, we want to idenify proteins that are expressed twice more in 37ºC than 28ºC, or vice versa.
For MALDI analysis, protein samples are spotted on the MALDI plate, a laser will hit on all the samples on each spot after which the top 10 hits will be further broken down by the laser and these peptides will then be analysed by the detector and a database search will be performed to identify these proteins.
Hope u understand.
Hi Eugene!
How's ur project MB going?Why do you incubate the bacteria at 28 and 37 degrees?
Royston Tan
TG01
How's ur project MB going?Why do you incubate the bacteria at 28 and 37 degrees?
Royston Tan
TG01
Eugene!!
Why do u use microcon filtration when your samples are already so 'clean'? Also, is there a limitation in bradford assay?Why u din do bradford assay after the samples undergone microcon filtration??
Charmaine
TG01
Why do u use microcon filtration when your samples are already so 'clean'? Also, is there a limitation in bradford assay?Why u din do bradford assay after the samples undergone microcon filtration??
Charmaine
TG01
Wah Roystan ar...a rare visitor =)
The resaon why we incubating S. maltophilia at 28 n 37 degrees is done is because we want to see the differences in terms of the types of proteins expressed when the bacterium is incubated at room temperature (28 degrees) and human body temperatrure (37 degrees). From this we may determine which periplasmic protein is causing S. maltophilia to be virulent.
Eugene Wong
TG02
The resaon why we incubating S. maltophilia at 28 n 37 degrees is done is because we want to see the differences in terms of the types of proteins expressed when the bacterium is incubated at room temperature (28 degrees) and human body temperatrure (37 degrees). From this we may determine which periplasmic protein is causing S. maltophilia to be virulent.
Eugene Wong
TG02
Yo Charmaine,
Our samples undergo microcon purifcation because we want to further concentrate our protein samples before subjecting them to 2D gel electrophoresis. The limitation of Bradforad assay, in this case, is that we may not determine the extact concentration of proteins because the microcn we use removes any proteins smaller than 3kDa. By the way u resd the posting wrongly..I perfrom Bradford assay after micron purification and not before purification.. Hope it helps =)
Eugene Wong
TG02
Our samples undergo microcon purifcation because we want to further concentrate our protein samples before subjecting them to 2D gel electrophoresis. The limitation of Bradforad assay, in this case, is that we may not determine the extact concentration of proteins because the microcn we use removes any proteins smaller than 3kDa. By the way u resd the posting wrongly..I perfrom Bradford assay after micron purification and not before purification.. Hope it helps =)
Eugene Wong
TG02
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