Team:Groningen/23 August 2010

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{{Team:Groningen/Header}}
{{Team:Groningen/Header}}
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'''Week 34'''
 +
----
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 +
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'''Exression experiment'''
<br>
<br>
-
'''Expression experiment''' - ''David & Peter''
+
 
 +
'''Peter & David'''
<br>
<br>
-
The second expression experiment.
+
 
 +
For this experiment, the following B. subtilis 168 strains were used:
<br>
<br>
-
Analasys was done by THT and SDS page.
+
 
 +
All cultures were grown overnight at 37 degrees Celsius in a shaker room, the appropriate antibiotics were used at all points in time during this experiment.  
 +
 
<br>
<br>
-
'''
 
-
Biofilm formation experiment'''
 
-
Bacillus Subtilis cultures were grown overnight in a Petridish containing 20mL of LB medium and a piece of ceramics to spurr the biofilm formation. The following cultures wehre grown:
+
Overnight cultures were used to dilute to a B. subtilis culture of 0,1 OD, these strains were divided into ‘’induced’’ and ‘’non-induced’’. Induction with 0,5% subtilin was done at a OD of 0,5 (approximately 2,5 hours after growth of the 0,1 culture started).  
-
Bacillus Subtilis, Bacillus Subtilis ΔTasA, Bacillus Subtilis wit chaplin E1, Bacillus Subtilis with chaplin H1, Bacillus Subtilis ΔTasA with chaplin E1, Bacillus Subtilis ΔTasA with chaplin H1
+
<br>
 +
 
 +
After that the OD of the cultures was measured every .. hours.
 +
 
 +
<br>
 +
 
 +
'''Sample preperation'''
 +
 
 +
<br>
 +
 
 +
After .. hours, .. after induction, the samples were collected and processed. The following procedures were used:
 +
 
 +
<br>
 +
 
 +
Pellet preperation ([[PelletPrepGR]])
 +
 
 +
<br>
 +
 
 +
Supernatant processing ([[SupernatantPrepGR]])
 +
 
 +
<br>
 +
 
 +
Cell disruption ([[ExtractionCellWallsGR]])
 +
 
 +
<br>
 +
 
 +
Lysozyme preperation ([[LysozymePrepGR]])
 +
 
 +
<br>
 +
 
 +
Analysis was done using SDS-PAGE ([[SDS-PAGEGR]]) and THT staining ([[THTstainingGR]]).
 +
 
 +
<br>
 +
 
 +
'''Results''':
 +
 
 +
<br>
 +
 
 +
'''Growth Curve'''
 +
 
 +
<br>
 +
 
 +
[[Image:GrowthCurveGR2.jpg|400px]]
 +
 
 +
<br>
 +
 
 +
 
 +
 
 +
<br>
 +
 
 +
'''THT Staining'''
 +
 
 +
<br>
 +
 
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[[Image:THTGR2.jpg|400px]]
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 +
<br>
 +
 
 +
 
 +
<br>
 +
 
 +
'''SDS-PAGE'''
 +
 
 +
<br>
 +
 
 +
[[Image:SDS-PAGEGR2.jpg|400px]]
 +
 
 +
<br>
 +
 
 +
<br>
 +
 
 +
 
 +
 
 +
<br>
 +
 
 +
'''Biofilm formation experiment'''
 +
 
 +
''Bacillus Subtilis'' cultures were grown overnight in a Petridish containing 20mL of LB medium and a piece of ceramics to spurr the biofilm formation. The following cultures wehre grown:
 +
''
 +
Bacillus Subtilis'', ''Bacillus Subtilis'' ΔTasA, ''Bacillus Subtilis'' with chaplin E1, ''Bacillus Subtilis'' with chaplin H1, ''Bacillus Subtilis'' ΔTasA with chaplin E1, ''Bacillus Subtilis'' ΔTasA with chaplin H1
All cultures where inoculated with 100uL of overnight culture. All cultures where run in duplicate, one induced with 1%subtilin, and one without subtilin as a negative control.
All cultures where inoculated with 100uL of overnight culture. All cultures where run in duplicate, one induced with 1%subtilin, and one without subtilin as a negative control.
 +
 +
We assumed that the ΔTasA would not form a biofilm and the normal phenotype could be restored by the expression of chaplins.  Furthermore we assumed that the normal ''Bacillus Subtilis'' biofilm would have atered properties.
 +
 +
No such effects could be observed all ΔTasA cultures showed the same non biofilm phenotype
 +
 +
[[Image:Biofilm Bacillus DeltaTasA.jpg|400px]]
 +
 +
The same goes for all ''Bacillus Subtilis'' cultures with TasA, the were all not affected by induction of Chaplins, and showed a normal biofiml forming phenotype.
 +
 +
[[Image:Biofilm Bacillus 1.jpg|400px]]
 +
 +
 +
Our assumption is that either: the expression of chaplins has no visible effect on biofilm formation or, that the subtilin was degraded over night and no proper expression of chaplins took place.
 +
 +
'''Geeske'''
 +
 +
Started to make the following constructs:
 +
 +
-pNZ8901_EH (combination)
 +
 +
-pNZ8901_C
 +
 +
-pNZ8901_dC (adapted in signal sequence)
 +
 +
-pNZ8901_CS (Chaplin C and Sortase)
 +
 +
-pNZ8901_dCS
 +
 +
-pNZ8901_CH
 +
 +
 +
However halted the attempts to check the ''B. sub'' NZ8900 pNZ8901_E, ''B. sub'' NZ8900 pNZ8901_H clones and ΔTasA versions with mini-prep and gelelectroforese for presence of the pNZ8901-plasmids. Only ''B. sub'' ΔTasA NZ8900 pNZ8901_E (sometimes referred to as E1) showed plasmid. This could explain all the expression results. There was no explanation, however, for why the strains did grow on the selective antibiotics.
 +
 +
 +
'''Modellers:'''
 +
Read articles, think about model etc. ''Joël, Laura, Djoke''
 +
 +
Still researching information required for information standard ''Arend''
 +
 +
Working on killswitch model, find information about various killswitch systems. ''Laura''
 +
 +
 +
'''Safety'''
 +
 +
Talked to Juke Lolkema about safety issues, wrote the part on safety for the wiki. ''Djoke and Laura''
 +
 +
'''Jorrit'''
 +
 +
Repeated transformation of week 33 of the biofilm forming strains, again no colonies visible
 +
helped David & Peter processing samples
 +
Cut CCH1, dCS and pNZ plasmid with EcoR1 FD, Spe1 FD, checked on gel
 +
isolated product from gel with Bioké kit and nanodropped.
 +
 +
 +
'''Arend Jan'''
 +
 +
 +
Two variants of the srfA promoter will be made into biobrick parts by amplifying them from the genome and flanking them with the prefix and suffix. PCR Primers were desinged and a PCR was performed using varying conditions.
 +
 +
 +
[[Image:25-08-10gn.jpg|300px|thumb|left|srfA promoter PCR with varying template dilutions and DMSO addition]]
 +
<br style="clear: both" />
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 +
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The products were purified and ligated into the pSB1C3 backbone, both with and without the BBa_E0240 GFP part. Transformation plates were grown over the weekend.
 +
 +
{{Team:Groningen/Footer}}
{{Team:Groningen/Footer}}

Latest revision as of 03:44, 28 October 2010

iGEM Groningen 2010

Hydrophobofilm
pushing coatings into a greener future

Week 34



Exression experiment


Peter & David

For this experiment, the following B. subtilis 168 strains were used:

All cultures were grown overnight at 37 degrees Celsius in a shaker room, the appropriate antibiotics were used at all points in time during this experiment.


Overnight cultures were used to dilute to a B. subtilis culture of 0,1 OD, these strains were divided into ‘’induced’’ and ‘’non-induced’’. Induction with 0,5% subtilin was done at a OD of 0,5 (approximately 2,5 hours after growth of the 0,1 culture started).


After that the OD of the cultures was measured every .. hours.


Sample preperation


After .. hours, .. after induction, the samples were collected and processed. The following procedures were used:


Pellet preperation (PelletPrepGR)


Supernatant processing (SupernatantPrepGR)


Cell disruption (ExtractionCellWallsGR)


Lysozyme preperation (LysozymePrepGR)


Analysis was done using SDS-PAGE (SDS-PAGEGR) and THT staining (THTstainingGR).


Results:


Growth Curve


GrowthCurveGR2.jpg




THT Staining


400px




SDS-PAGE


400px





Biofilm formation experiment

Bacillus Subtilis cultures were grown overnight in a Petridish containing 20mL of LB medium and a piece of ceramics to spurr the biofilm formation. The following cultures wehre grown: Bacillus Subtilis, Bacillus Subtilis ΔTasA, Bacillus Subtilis with chaplin E1, Bacillus Subtilis with chaplin H1, Bacillus Subtilis ΔTasA with chaplin E1, Bacillus Subtilis ΔTasA with chaplin H1

All cultures where inoculated with 100uL of overnight culture. All cultures where run in duplicate, one induced with 1%subtilin, and one without subtilin as a negative control.

We assumed that the ΔTasA would not form a biofilm and the normal phenotype could be restored by the expression of chaplins. Furthermore we assumed that the normal Bacillus Subtilis biofilm would have atered properties.

No such effects could be observed all ΔTasA cultures showed the same non biofilm phenotype

Biofilm Bacillus DeltaTasA.jpg

The same goes for all Bacillus Subtilis cultures with TasA, the were all not affected by induction of Chaplins, and showed a normal biofiml forming phenotype.

Biofilm Bacillus 1.jpg


Our assumption is that either: the expression of chaplins has no visible effect on biofilm formation or, that the subtilin was degraded over night and no proper expression of chaplins took place.

Geeske

Started to make the following constructs:

-pNZ8901_EH (combination)

-pNZ8901_C

-pNZ8901_dC (adapted in signal sequence)

-pNZ8901_CS (Chaplin C and Sortase)

-pNZ8901_dCS

-pNZ8901_CH


However halted the attempts to check the B. sub NZ8900 pNZ8901_E, B. sub NZ8900 pNZ8901_H clones and ΔTasA versions with mini-prep and gelelectroforese for presence of the pNZ8901-plasmids. Only B. sub ΔTasA NZ8900 pNZ8901_E (sometimes referred to as E1) showed plasmid. This could explain all the expression results. There was no explanation, however, for why the strains did grow on the selective antibiotics.


Modellers: Read articles, think about model etc. Joël, Laura, Djoke

Still researching information required for information standard Arend

Working on killswitch model, find information about various killswitch systems. Laura


Safety

Talked to Juke Lolkema about safety issues, wrote the part on safety for the wiki. Djoke and Laura

Jorrit

Repeated transformation of week 33 of the biofilm forming strains, again no colonies visible helped David & Peter processing samples Cut CCH1, dCS and pNZ plasmid with EcoR1 FD, Spe1 FD, checked on gel isolated product from gel with Bioké kit and nanodropped.


Arend Jan


Two variants of the srfA promoter will be made into biobrick parts by amplifying them from the genome and flanking them with the prefix and suffix. PCR Primers were desinged and a PCR was performed using varying conditions.


srfA promoter PCR with varying template dilutions and DMSO addition



The products were purified and ligated into the pSB1C3 backbone, both with and without the BBa_E0240 GFP part. Transformation plates were grown over the weekend.


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