Difference between revisions of "Part:BBa K5034220"
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<img src="https://static.igem.wiki/teams/5034/engineering/mechanism-of-ppk1.png" style="width: 500px; height: auto;"> | <img src="https://static.igem.wiki/teams/5034/engineering/mechanism-of-ppk1.png" style="width: 500px; height: auto;"> | ||
+ | <p>Figure 1: Basic function of PPK1</p> | ||
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===Construct features=== | ===Construct features=== | ||
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− | Plasmid Backbone: pBBR1MCS-terminator plasmid | + | * Plasmid Backbone: pBBR1MCS-terminator plasmid |
− | Promoter: Constitutive promoter for continuous expression. We use Lac promoter in our experiment. | + | * Promoter: Constitutive promoter for continuous expression. We use Lac promoter in our experiment. |
− | RBS: Ribosome binding site for efficient translation. We use BBa-B0031 here. | + | * RBS: Ribosome binding site for efficient translation. We use BBa-B0031 here. |
− | PPK1 Coding Sequence: Encodes the polyphosphate kinase 1 enzyme. | + | * PPK1 Coding Sequence: Encodes the polyphosphate kinase 1 enzyme. |
− | Terminator: Efficient transcription terminator to ensure proper mRNA processing. We use rrnB T1 terminator and T7Te terminator in our experiment. | + | * Terminator: Efficient transcription terminator to ensure proper mRNA processing. We use rrnB T1 terminator and T7Te terminator in our experiment. |
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<img src="https://static.igem.wiki/teams/5034/results/new/basic-structure-of-spk3.png" style="width: 500px; height: auto;"> | <img src="https://static.igem.wiki/teams/5034/results/new/basic-structure-of-spk3.png" style="width: 500px; height: auto;"> | ||
+ | <p>Figure 2: Basic construction of <i>PPK1</i> with BBa-B0031 RBS plasmid</p> | ||
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<img src="https://static.igem.wiki/teams/5034/engineering/pbbr1mcs-terminator-31-ppk1.png" style="width: 500px; height: auto;"> | <img src="https://static.igem.wiki/teams/5034/engineering/pbbr1mcs-terminator-31-ppk1.png" style="width: 500px; height: auto;"> | ||
+ | <p>Figure 3: Construction of <i>PPK1</i> with BBa-B0031 RBS plasmid</p> | ||
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<img src="https://static.igem.wiki/teams/5034/engineering/fig9.png" style="width: 500px; height: auto;"> | <img src="https://static.igem.wiki/teams/5034/engineering/fig9.png" style="width: 500px; height: auto;"> | ||
+ | <p>Figure 4: Colony PCR indicating plasmid replication in <i>S. oneidensis.</i></p> | ||
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<img src="https://static.igem.wiki/teams/5034/engineering/gel-ppk1.png" style="width: 500px; height: auto;"> | <img src="https://static.igem.wiki/teams/5034/engineering/gel-ppk1.png" style="width: 500px; height: auto;"> | ||
+ | <p>Figure 5: Agarose gel electrophoresis indicating we got the target gene with the corresponding RBS</p> | ||
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<img src="https://static.igem.wiki/teams/5034/engineering/fig10.png" style="width: 500px; height: auto;"> | <img src="https://static.igem.wiki/teams/5034/engineering/fig10.png" style="width: 500px; height: auto;"> | ||
+ | <p>Figure 6: SDS-PAGE results showing that the BBa-B0031 one’s protein expression is the minimum, corresponding to the strength of RBS.</p> | ||
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<img src="https://static.igem.wiki/teams/5034/engineering/fig12.png" style="width: 500px; height: auto;"> | <img src="https://static.igem.wiki/teams/5034/engineering/fig12.png" style="width: 500px; height: auto;"> | ||
+ | <p>Figure 7: Electricity production capacity of <i>S. oneidensis.</i> after the introduction of <i>PPK1</i> with different RBS</p> | ||
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<img src="https://static.igem.wiki/teams/5034/engineering/fig11.png" style="width: 500px; height: auto;"> | <img src="https://static.igem.wiki/teams/5034/engineering/fig11.png" style="width: 500px; height: auto;"> | ||
+ | <p>Figure 8: Phosphorus accumulation capacity of <i>S. oneidensis.</i> after the introduction of <i>PPK1</i> with different RBS</p> | ||
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Revision as of 10:00, 1 October 2024
Pi <-> Poly P
Contents
Basic Description
This composite part includes the PPK1 gene which is initially from Citrobacter freundii and we performed codon optimization on, is expressed in the pBBR1MCS-terminator plasmid with the BBa-B0031 RBS, which is a weaker one compared to others. This composite part is designed to facilitate the reversible conversion between inorganic polyphosphate (PolyP) and inorganic phosphate (Pi). The PPK1 enzyme is known for its ability to synthesize PolyP from ATP and Pi and to degrade PolyP back to Pi, with a preference for the synthetic reaction, making it a versatile tool for managing phosphate metabolism in engineered systems.
Figure 1: Basic function of PPK1
Construct features
- 10INCOMPATIBLE WITH RFC[10]Illegal prefix found in sequence at 4981
Illegal suffix found in sequence at 1 - 12INCOMPATIBLE WITH RFC[12]Illegal EcoRI site found at 4981
Illegal SpeI site found at 2
Illegal PstI site found at 16
Illegal NotI site found at 9
Illegal NotI site found at 2834
Illegal NotI site found at 4987 - 21INCOMPATIBLE WITH RFC[21]Illegal EcoRI site found at 4981
Illegal BglII site found at 3580 - 23INCOMPATIBLE WITH RFC[23]Illegal prefix found in sequence at 4981
Illegal suffix found in sequence at 2 - 25INCOMPATIBLE WITH RFC[25]Illegal prefix found in sequence at 4981
Illegal XbaI site found at 4996
Illegal SpeI site found at 2
Illegal PstI site found at 16
Illegal NgoMIV site found at 562
Illegal NgoMIV site found at 4244
Illegal NgoMIV site found at 4527
Illegal AgeI site found at 402 - 1000COMPATIBLE WITH RFC[1000]
- Plasmid Backbone: pBBR1MCS-terminator plasmid
- Promoter: Constitutive promoter for continuous expression. We use Lac promoter in our experiment.
- RBS: Ribosome binding site for efficient translation. We use BBa-B0031 here.
- PPK1 Coding Sequence: Encodes the polyphosphate kinase 1 enzyme.
- Terminator: Efficient transcription terminator to ensure proper mRNA processing. We use rrnB T1 terminator and T7Te terminator in our experiment.
Figure 2: Basic construction of PPK1 with BBa-B0031 RBS plasmid
Figure 3: Construction of PPK1 with BBa-B0031 RBS plasmid
We transformed the plasmids into wild-type S. oneidensis., expressed it, and performed colony PCR. The results showed that PPK1 was successfully introduced into S. oneidensis. for replication.
Figure 4: Colony PCR indicating plasmid replication in S. oneidensis.
DNA agarose gel electrophoresis results showed that we obtained the plasmid with BBa-B0031 RBS, which is approximately 2.1 kb in size.
Figure 5: Agarose gel electrophoresis indicating we got the target gene with the corresponding RBS
We performed protein extraction for SDS-PAGE. SDS-PAGE results showed that protein expression of the plasmid with BBa-B0031 RBS is the minimum, corresponding to the strength of RBS.
Figure 6: SDS-PAGE results showing that the BBa-B0031 one’s protein expression is the minimum, corresponding to the strength of RBS.
Origin (Organism)
The PPK1 gene was sourced from Citrobacter freundii. The pBBR1MCS-terminator plasmid backbone is a standard vector used for gene expression in synthetic biology applications.
Experimental Characterization and results
Alteration of protein expression intensity can regulate the metabolic networks, so we focused on RBS with varying translation strengths to facilitate the regulation of PPK1 concentration in S. oneidensis. to develop the best ability to produce electricity and polymerize phosphorus.
We conducted Pi content detection to determine Pi concentration and half-cell experiment to measure the electricity production ability, we found SPK3 with RBS BBa-B0031 has the worst capacity to polymerize phosphorus but a greatest electroproduction capability.
Figure 7: Electricity production capacity of S. oneidensis. after the introduction of PPK1 with different RBS
Figure 8: Phosphorus accumulation capacity of S. oneidensis. after the introduction of PPK1 with different RBS
Details of all experiments can be found in the
Chassis and genetic
Chassis:Shewanella onediensis MR-1
The gene can be expressed and function properly in S. oneidensis..
Potential applications
The PPK1 gene (polyphosphate kinase 1) has potential applications in:
Industrial Microbial Engineering: Enhances the production of biofuels, amino acids, or antibiotics by boosting polyphosphate synthesis in microorganisms.
Environmental Bioremediation: Assists in the accumulation of heavy metals or radioactive substances for pollution control.
References
1.Itoh, H., & Shiba, T. (2004). Polyphosphate synthetic activity of polyphosphate:AMP phosphotransferase in Acinetobacter johnsonii 210A. Journal of Bacteriology, 186(15), 5178-5181.