Difference between revisions of "Part:BBa K3552000"

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<partinfo>BBa_K3552000 short</partinfo>
 
<partinfo>BBa_K3552000 short</partinfo>
  
Geobacter sulfurreducens pilA(GsPilA) is a type 4 pilus usually found on Geobacter sulfurreducens which can conduct electricity. This part is in the part collection where we provide different conductive pilus based on the same pilin generator. By these different type 4 pilus we can compare the qualities of stability and yield.
+
Geobacter sulfurreducens pilA(GsPilA) is a type 4 pilus usually found on Geobacter sulfurreducens which can conduct electricity. This part is in the part collection where we provide different conductive pilus based on the same pilin generator. By these different type 4 pilus, we can compare the qualities of stability and yield.
  
 
The part collection includes:
 
The part collection includes:
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<partinfo>BBa_K3552012</partinfo>.
 
<partinfo>BBa_K3552012</partinfo>.
  
Our part collection can instruct other teams to design new rechargeable pilus and substitute them to have more combination that may achieve better performance in the future when manufacturing the batteries.
+
Our part collection can instruct other teams to design new rechargeable pilus and substitute them to have more combinations that may achieve better performance in the future when manufacturing the batteries.
  
 
<span class='h3bb'>'''Sequence and Features'''</span>
 
<span class='h3bb'>'''Sequence and Features'''</span>
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==Usage and Biology==
 
==Usage and Biology==
GsPilA are fimbrial protein which normally grow on Geobacter sulfurreducens. GsPilA are type 4 pili which are long and thin, displaying on the cell surface membrane. They can promote adherence, motility and transport functions in the bacteria. They are mainly built as helical polymers of a single subunit called the major pilin. These pilins are initially in the plasma membrane and the N-terminal is positively charged. The mature pilins will be extracted through the membrane by the pilin generator.
+
GsPilA is a fimbrial protein that normally grows on Geobacter sulfurreducens. GsPilAs are type 4 pili that are long and thin, displaying on the cell surface membrane. They can promote adherence, motility, and transport functions in the bacteria. They are mainly built as helical polymers of a single subunit called the major pilin. These pilins are initially in the plasma membrane and the N-terminal is positively charged. The mature pilins can be extracted through the membrane by the pilin generator.
  
 
==Characterization==
 
==Characterization==
We first constructed the GsPilA by SOE PCR through 8 different primers to maintain the exactly same amino acid sequence as in the Geobacter sulfurreducens. After the final construction of the generator of PilA, we added six His-tag to the GsPilA and expressed the gene in vivo in E.coli BL21. After 48 hours of growth, we extracted the pili and verified the existence of GsPilA on the outer cell through Western Blot. We also do electronic speculum and see the clear image of the pili in the solution.
+
We first constructed the gene, GsPilA, slicing by overlap extension by PCR through 8 different primers to obtain a similar DNA sequence as in the Geobacter sulfurreducens, which produce the same amino acid sequence. To get a complete pili production system, we constructed the generator of the pili and obtained a complete circuit of <partinfo>BBa_K3552010</partinfo> .
  
 
         [[File:T--LINKS China--Figure pili expression.jpeg|800px]]
 
         [[File:T--LINKS China--Figure pili expression.jpeg|800px]]
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         [[File:T--LINKS China--Figure his-tag addition.jpeg|800px]]
 
         [[File:T--LINKS China--Figure his-tag addition.jpeg|800px]]
  
 +
For pili expression, we chose E.coli BL21 because it is the best fit for our project as it has the highest pili yield and is easy to obtain. On the cultivation part, we cultured the bacteria in solid M9 mediums. Additionally, we provided the bacteria with glycerol as the carbon source because it was confirmed to help to improve the conductivity of the pili produced.
  
To get a complete pili production system, we first ordered oligo DNAs from Gs pilA gene and assembled them by SOE PCR to acquired its completely same amino acid sequence as expressed by EHEC genes. Then we constructed the generator of the pili and obtain a complete circuit of <partinfo>BBa_K3552010</partinfo> .
+
We transformed <partinfo>BBa_K3552010</partinfo>  into Escherichia coli(E.coli) BL21. Then we cultivated the bacteria and harvested the bacteria from M9 plates after 48h cultivation by scrapping them off again with liquid M9 solution and collect the bacteria solution. Finally, by conducting the extraction and purification of the samples, we managed to get an amount Gs pili solution dissolving in 150mM ethanol-amine after filtration with a 100kDa membrane in nitrogen gas.  
 
+
For pili expression, we chose E.coli BL21 because it is the best fit to our project as it has the highest pili yield among them and is easy to obtain. On the cultivation part, we cultured the bacteria in solid M9 medium. Additionally, we provide the bacteria with glycerol as the carbon source because it was confirmed to help improve the conductivity of the pili produced.
+
 
+
We transformed <partinfo>BBa_K3552010</partinfo>  into E.coli BL21. Then we cultivated the bacteria and harvested the bacteria from M9 plates after 48h cultivation by scrapping them off again with liquid M9 solution and collect the bacteria solution. Finally, by conducting the extraction and purification on the samples, we managed to get an amount Gs pili solution dissolving in 150mM ethanol-amine after filtration with a 100kDa membrane in nitrogen gas.  
+
  
 
         [[File:T--LINKS China--Figure pilin production.jpeg|800px]]
 
         [[File:T--LINKS China--Figure pilin production.jpeg|800px]]
  
We also ordered a SEM Photography for our pili on the photographs, we can see that the pili was distributed evenly on the surface in porous structures between each pili individuals. In order to confirm the E.coli produced the correct e-pili, we conducted Western Blot experiment to convince the production. According to the positive strands on the membrane, Pili was confirmed to be produced and purified successfully, with an expected molecular mass of 10kDa.
+
We also ordered an SEM Photography for our pili on the photographs, we can see that the pili were distributed evenly on the surface in porous structures between each pili individuals. In order to confirm the E.coli produced the correct e-pili, we conducted a Western Blot experiment to convince the production. According to the positive strands on the membrane, we confirmed pili, with an expected molecular mass of 10kDa, was produced and purified successfully.
  
 
         [[File:T--LINKS China--Figure expression in E.coli.jpeg|800px]]
 
         [[File:T--LINKS China--Figure expression in E.coli.jpeg|800px]]
  
We also conducted experiments to measure the voltages of each batteries. First we manufactured six standard electrodes by using three pili, two pieces each, all with triple layer of pili covered. Then we measured the voltage and compared the result which shows that Gm pili has the highest value of measured voltage where Gs pili has the least.
+
We also conducted experiments to measure the voltage of each battery. First, we manufactured six standard electrodes by using three pili, two pieces each, all with a triple layer of pili covered. Then we measured the voltage and compared the result which showed that Gm pili have the highest value of measured voltage while Gs pili have the least.
  
 
         [[File:T--LINKS China--Figure battery.jpeg|800px]]
 
         [[File:T--LINKS China--Figure battery.jpeg|800px]]
  
In order to compare the pili yield, we established a new measurement for a quicker, clearer, and more accurate determination of pili production. We use his-tags antibodies to attach on the his-tags on the pili, and then the secondary antibodies will attached to the his-tags antibodies for coloration directly on the outer membrane of the bacteria. We analyse the datas and included the effects of two variables on pili production: cultivation time and mobile oxygen presence. The result shows a ranking from Gs pili to Pa pili to Gm pili.
+
In order to compare the pili yield, we established a new measurement for a quicker, clearer, and more accurate determination of pili production. We used his-tags antibodies to attach to the his-tags on the pili, and then the secondary antibodies will be attached to the his-tags antibodies for coloration directly on the outer membrane of the bacteria. We analyzed the data and included the effects of two variables on pili production: cultivation time and mobile oxygen presence. The result shows a ranking from Gs pili to Pa pili to Gm pili.
  
 
         [[File:T--LINKS China--Figure verification.jpeg|800px]]
 
         [[File:T--LINKS China--Figure verification.jpeg|800px]]

Revision as of 11:51, 27 October 2020


GsPilA

Geobacter sulfurreducens pilA(GsPilA) is a type 4 pilus usually found on Geobacter sulfurreducens which can conduct electricity. This part is in the part collection where we provide different conductive pilus based on the same pilin generator. By these different type 4 pilus, we can compare the qualities of stability and yield.

The part collection includes: Parts that are different kinds of type 4 pilus: BBa_K3552000 BBa_K3552001 BBa_K3552002. Parts that are the generator of the type 4 pilus: BBa_K3552003 BBa_K3552004 BBa_K3552005 BBa_K3552006 BBa_K3552007 BBa_K3552008 BBa_K3552018 BBa_K3552019 BBa_K3552020 BBa_K3552021 BBa_K3552022 BBa_K3552023 BBa_K3552024 BBa_K3552025 BBa_K3552026 BBa_K3552027 BBa_K3552028 BBa_K3552029. Parts that are a complete circuit: BBa_K3552009 BBa_K3552010 BBa_K3552011 BBa_K3552012.

Our part collection can instruct other teams to design new rechargeable pilus and substitute them to have more combinations that may achieve better performance in the future when manufacturing the batteries.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]

Reference

Luna Rico, Areli et al. “Functional reconstitution of the type IVa pilus assembly system from enterohaemorrhagic Escherichia coli.” Molecular microbiology vol. 111,3 (2019): 732-749. doi:10.1111/mmi.14188

Usage and Biology

GsPilA is a fimbrial protein that normally grows on Geobacter sulfurreducens. GsPilAs are type 4 pili that are long and thin, displaying on the cell surface membrane. They can promote adherence, motility, and transport functions in the bacteria. They are mainly built as helical polymers of a single subunit called the major pilin. These pilins are initially in the plasma membrane and the N-terminal is positively charged. The mature pilins can be extracted through the membrane by the pilin generator.

Characterization

We first constructed the gene, GsPilA, slicing by overlap extension by PCR through 8 different primers to obtain a similar DNA sequence as in the Geobacter sulfurreducens, which produce the same amino acid sequence. To get a complete pili production system, we constructed the generator of the pili and obtained a complete circuit of BBa_K3552010 .

        T--LINKS China--Figure pili expression.jpeg
        T--LINKS China--Figure his-tag addition.jpeg

For pili expression, we chose E.coli BL21 because it is the best fit for our project as it has the highest pili yield and is easy to obtain. On the cultivation part, we cultured the bacteria in solid M9 mediums. Additionally, we provided the bacteria with glycerol as the carbon source because it was confirmed to help to improve the conductivity of the pili produced.

We transformed BBa_K3552010 into Escherichia coli(E.coli) BL21. Then we cultivated the bacteria and harvested the bacteria from M9 plates after 48h cultivation by scrapping them off again with liquid M9 solution and collect the bacteria solution. Finally, by conducting the extraction and purification of the samples, we managed to get an amount Gs pili solution dissolving in 150mM ethanol-amine after filtration with a 100kDa membrane in nitrogen gas.

        T--LINKS China--Figure pilin production.jpeg

We also ordered an SEM Photography for our pili on the photographs, we can see that the pili were distributed evenly on the surface in porous structures between each pili individuals. In order to confirm the E.coli produced the correct e-pili, we conducted a Western Blot experiment to convince the production. According to the positive strands on the membrane, we confirmed pili, with an expected molecular mass of 10kDa, was produced and purified successfully.

        T--LINKS China--Figure expression in E.coli.jpeg

We also conducted experiments to measure the voltage of each battery. First, we manufactured six standard electrodes by using three pili, two pieces each, all with a triple layer of pili covered. Then we measured the voltage and compared the result which showed that Gm pili have the highest value of measured voltage while Gs pili have the least.

        T--LINKS China--Figure battery.jpeg

In order to compare the pili yield, we established a new measurement for a quicker, clearer, and more accurate determination of pili production. We used his-tags antibodies to attach to the his-tags on the pili, and then the secondary antibodies will be attached to the his-tags antibodies for coloration directly on the outer membrane of the bacteria. We analyzed the data and included the effects of two variables on pili production: cultivation time and mobile oxygen presence. The result shows a ranking from Gs pili to Pa pili to Gm pili.

        T--LINKS China--Figure verification.jpeg
        T--LINKS China--Figure results of new measurement.jpeg

Eventually, we successfully acquired the gene GsPilA and verified its production of pili with the help of generators.