Difference between revisions of "Part:BBa K3352008"
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<partinfo>BBa_K3352008 short</partinfo> | <partinfo>BBa_K3352008 short</partinfo> | ||
− | + | The composite part utilizes a T7 Promoter (BBa_J64997), extended RBS (BBa_K3352002), SplintR Ligase (BBa_K3352000), and a T7 Terminator (BBa_K3352003). | |
− | + | <b><font size="+1.2"> Construct Design </font></b> | |
− | + | We improved the constructs (BBa_K3352006) and (BBa_K33352007) by using pET3a and pET11a vectors with appropriate BioBrick prefixes and suffixes that fulfill the assembly standard. The pET vector includes the T7 promoter, which promotes high level transcription. By utilizing both a T7 promoter, T7 terminator, and an extended UTR sequence around the RBS and before the terminator, we would maximize the protein expression for our enzymes. These composite parts were synthesized by GenScript. | |
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+ | https://2020.igem.org/wiki/images/6/61/T--TAS_Taipei--Parts_Extended_RBS.png | ||
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+ | <b> Figure 1: Extended RBS </b> | ||
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+ | <b><font size="+1.2"> Characterization </font></b> | ||
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+ | <b><font size="+0.5"> pET3a and pET11a Promoter with T7 Terminator </font></b> | ||
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+ | We also aimed to improve this construct by using a pET3a and pET11a vectors with appropriate BioBrick prefixes and suffixes that fulfill the assembly standard. pET vectors include the T7 promoter, which promotes high level transcription [1]. By utilizing both a T7 promoter, T7 terminator, and an extended UTR sequence around the RBS and before the terminator, we can maximize protein expression for our enzymes (Figure 2) [1]. These composite parts were synthesized by GenScript. | ||
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+ | https://2020.igem.org/wiki/images/7/78/T--TAS_Taipei--Registry_13.png | ||
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+ | <b> Figure 2: Characterization of the pET T7 promoter with Φ29 polymerase (BBa_K3352009) construct and pET T7 promoter with SplintR (BBa_K3352008). We digested both constructs at the XbaI and PstI sites. The part (BBa_K3352001) was ligated into a pET11a backbone that is about 5500bps to form part (BBa_K3352009). Similarly, the part (BBa_K3352000) was ligated into pET3a backbone with a size of 4400bps which forms part (BBa_K3352008). </b> | ||
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+ | <b><font size="+0.5"> Protein Expression and Purification </font></b> | ||
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+ | We transformed our plasmids into BL21(DE3) <i>E. coli</i> cells. We grew bacterial cultures overnight at 37°C, diluted them to an OD600 of 0.2, and then grew them to 0.5, where we collected a sample of 1mL. We then added IPTG and grew the cultures for another 4 hours. After the additional 4 hours, we then collected another 1mL sample. We centrifuged both samples and resuspended the pellets in 1x Sample Buffer. The samples containing IPTG expressed the protein more strongly, which suggests that our protein was present (Figure 3). | ||
+ | |||
+ | https://2020.igem.org/wiki/images/b/b8/T--TAS_Taipei--Registry_8.png | ||
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+ | <b> Figure 3: SDS-PAGE results show that SplintR ligase and Φ29 polymerase was expressed by <i>E. coli</i>. We grew the bacterial cultures overnight at 37°C, diluted them to an OD600 of 0.2, and then grew them to 0.5, where we collected a sample of 1mL. We then added IPTG and grew the cultures for another 4 hours. After the additional 4 hours, we then collected another 1mL sample. We centrifuged both samples and resuspended the pellets in 1x Sample Buffer. The sample with the IPTG expressed the protein more strongly, which suggests that our protein was present at 68.2 kDa. </b> | ||
Revision as of 12:26, 25 October 2020
T7 + New RBS & Terminator + SplintR Ligase Expressing Construct
The composite part utilizes a T7 Promoter (BBa_J64997), extended RBS (BBa_K3352002), SplintR Ligase (BBa_K3352000), and a T7 Terminator (BBa_K3352003).
Construct Design
We improved the constructs (BBa_K3352006) and (BBa_K33352007) by using pET3a and pET11a vectors with appropriate BioBrick prefixes and suffixes that fulfill the assembly standard. The pET vector includes the T7 promoter, which promotes high level transcription. By utilizing both a T7 promoter, T7 terminator, and an extended UTR sequence around the RBS and before the terminator, we would maximize the protein expression for our enzymes. These composite parts were synthesized by GenScript.
Figure 1: Extended RBS
Characterization
pET3a and pET11a Promoter with T7 Terminator
We also aimed to improve this construct by using a pET3a and pET11a vectors with appropriate BioBrick prefixes and suffixes that fulfill the assembly standard. pET vectors include the T7 promoter, which promotes high level transcription [1]. By utilizing both a T7 promoter, T7 terminator, and an extended UTR sequence around the RBS and before the terminator, we can maximize protein expression for our enzymes (Figure 2) [1]. These composite parts were synthesized by GenScript.
Figure 2: Characterization of the pET T7 promoter with Φ29 polymerase (BBa_K3352009) construct and pET T7 promoter with SplintR (BBa_K3352008). We digested both constructs at the XbaI and PstI sites. The part (BBa_K3352001) was ligated into a pET11a backbone that is about 5500bps to form part (BBa_K3352009). Similarly, the part (BBa_K3352000) was ligated into pET3a backbone with a size of 4400bps which forms part (BBa_K3352008).
Protein Expression and Purification
We transformed our plasmids into BL21(DE3) E. coli cells. We grew bacterial cultures overnight at 37°C, diluted them to an OD600 of 0.2, and then grew them to 0.5, where we collected a sample of 1mL. We then added IPTG and grew the cultures for another 4 hours. After the additional 4 hours, we then collected another 1mL sample. We centrifuged both samples and resuspended the pellets in 1x Sample Buffer. The samples containing IPTG expressed the protein more strongly, which suggests that our protein was present (Figure 3).
Figure 3: SDS-PAGE results show that SplintR ligase and Φ29 polymerase was expressed by E. coli. We grew the bacterial cultures overnight at 37°C, diluted them to an OD600 of 0.2, and then grew them to 0.5, where we collected a sample of 1mL. We then added IPTG and grew the cultures for another 4 hours. After the additional 4 hours, we then collected another 1mL sample. We centrifuged both samples and resuspended the pellets in 1x Sample Buffer. The sample with the IPTG expressed the protein more strongly, which suggests that our protein was present at 68.2 kDa.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NheI site found at 1029
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal AgeI site found at 869
- 1000COMPATIBLE WITH RFC[1000]