Difference between revisions of "Team:NAU-CHINA/Parts"

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anti-GFP-mnotch-TEV-NLS-pSB1C3<br>
+
<h1>parts</h1>
The anti-GFP-mnotch-tetR-VP64 of Fudan University was transformed into anti-GFP-mnotch-TEV, and the flag tag and NLS were added at the right end. Make it our cell surface receptor after transformation.<br>
+
<br>
插图,细胞图、western bolt结果<br>
+
  <h3>anti-GFP-mnotch-TEV protease--NLS</h3>
 +
  <br>
 +
  <img src="https://static.igem.org/mediawiki/2018/f/f8/T--NAU-China--parts1.jpg"><br>
 +
<p>Long description:The Notch receptor is a natural cell surface receptor whose extramembrane domain can be replaced by a variety of receptors, and the intramembrane domain can be replaced with a variety of transcription factors to construct a customized cell signaling pathway. We retained the conserved mmotch transmembrane domain, replacing the extracellular domain with anti-GFP and the intracellular domain with the TEV protease, thereby converting the extracellular signal into an intracellular signal.<br>
 +
Source:We borrowed the Anti-GFP-mnotch-tetR-VP64-V2 plasmid from Fudan University. After the TEV protease sequence used by the iGEM17_Oxford group was found on the iGEM website, it was sent to Kingsray for synthesis.<br>
 +
Design considerations:Since we need TEV protease to enter the nucleus, we added SV40 NLS to the back of the TEV protease.Since we used animal cells as the chassis organism, the coding sequence was humanized.<br>
 +
<img src="https://static.igem.org/mediawiki/2018/e/e0/T--NAU-China--part2.jpg"><br>
 +
Figure 1.  Effects of cell surface-expressed GFP on synNotch-TEV.  A. 1.Fluorescence microscope observation of HEK 293 T transfected with plasmid containing synNotch. The cells were cross-linked with GFP. The results showed that synNotch can be located to the membrane.  2.Blank control (without transfection).  B. Assay of the synNotch-TEV and FLAG-tagged TEV concentration affected by cell surface-expressed GFP.  C,D. Relative level of the synNotch-TEV and FLAG-tagged TEV affected by cell surface-expressed GFP. synNotch-TEV affected by surface-expressed GFP can be resolved into FLAG-TEV and V5-mNotch. Data are mean ±S.E. (n=3). **, p < 0.01; N.S., no significance. </p><br>
 +
 
 +
<h3>Bxb1 recombinase</h3>
 
<br>
 
<br>
 +
<p>Long description:Bxb1 is a widely studied recombinase that we use to mediate intracellular signals.<br>
 +
Source:We found the coding sequence of Bxb1 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:Since we used animal cells as the chassis organism, the coding sequence was humanized.</p><br>
  
Bxb1 integrase-pSB1C3<br>
+
<h3>Bxb1 attB-RFP-Bxb1 attP</h3>
Full length sequence of humanized Bxb1 integrase,<br>
+
<br>
Bxb1-reporter-pSB1C3<br>
+
<img src="https://static.igem.org/mediawiki/2018/3/32/T--NAU-China--part3.jpg  "><br>
Inserting a reporter gene in the middle of the Bxb1 integrase recombination site<br>
+
<p>Long description:We added Bxb1 recombination sites, attB and attP, at both ends of the reporter gene RFP (Inverted). When Bxb1 is expressed, attB and attP are recognized, and the sequence of RFP is inverted to enable normal expression.<br>
Bxb1-site-pSB1C3<br>
+
Source:RFP? After the recombination site of Bxb1 was found in the literature, it was sent to Kingsray for synthesis.<br>
Bxb1 integrase recombination site sequence<br>
+
Design considerations:The sequence of the RFP is inverted. To facilitate cloning, we randomly added some bases on both sides of attB and attP.<br></p>
  
  
 +
<h3>Bxb1 attB-Bxb1 attP</h3>
 +
<p>Long description:Bxb1-attB and Bxb1-attP are recognition and recombination sites for Bxb1 recombinase.<br>
 +
Source:After the recombination site of Bxb1 was found in the literature, it was sent to Kingsray for synthesis.<br>
 +
Design considerations:To facilitate cloning, we randomly added some bases on both sides of attB and attP.<br></p>
  
  
PhiC31 integrase-pSB1C3
+
<h3>PhiC31 recombinase</h3>
Full-length sequence of humanized PhiC31 integrase
+
<p>Long description:PhiC31 is a widely studied recombinase that we use to mediate intracellular signals.<br>
PhiC31-reporter-pSB1C3
+
Source:We found the coding sequence of PhiC31 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
Inserting a reporter gene in the middle of the PhiC31 integrase recombination site
+
Design considerations:Since we used animal cells as the chassis organism, the coding sequence was humanized.<br></p>
PhiC31-site-pSB1C3
+
PhiC31 integrase recombination site sequence
+
<br>
+
  
 +
<h3>PhiC31 attB-mCherry-Bxb1 attP</h3>
 +
<p>Long description:We added PhiC31 recombination sites, attB and attP, at both ends of the reporter gene mCherry (Inverted). When PhiC31 is expressed, attB and attP are recognized, and the sequence of RFP is inverted to enable normal expression.<br>
 +
Source: After the recombination site of PhiC31  was found in the literature, it was sent to Kingsray for synthesis.<br>
 +
Design considerations:The sequence of the mCherry is inverted. To facilitate cloning, we randomly added some bases on both sides of attB and attP.<br></p>
  
  
TP901 integrase-pSB1C3<br>
+
<h3>PhiC31 attB-Bxb1 attP</h3>
Humanized TP901 integrase full length sequence<br>
+
<p>Long description:PhiC31-attB and PhiC31-attP are recognition and recombination sites for PhiC31 recombinase.<br>
TP901 -reporter-pSB1C3<br>
+
Source:After the recombination site of PhiC31 was found in the literature, it was sent to Kingsray for synthesis.<br>
Inserting a reporter gene into the TP901 integrase recombination site<br>
+
Design considerations:To facilitate cloning, we randomly added some bases on both sides of attB and attP.<br></p>
TP901-site-pSB1C3<br>
+
TP901 integrase recombination site sequence<br>
+
  
<br>
+
<h3>TP901 recombinase</h3>
TetO-miniCMV-Bxb1-pSB1C3<br>
+
<p>Long description:TP901 is a widely studied recombinase that we use to mediate intracellular signals.<br>
The TetO sequence, SV40 NLS, flag tag, miniCMV promoter, Bxb1 integrase are sequentially linked and involved in intracellular signal processing for detecting the strength of the promoter and the effect of different recombinases on the system. <br>
+
Source:We found the coding sequence of TP901 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
插细胞荧光图<br>
+
Design considerations:Since we used animal cells as the chassis organism, the coding sequence was humanized.<br></p>
TetO-EF1a-Bxb1-pSB1C3<br>
+
The TetO sequence, SV40 NLS, flag tag, EF1a promoter, and Bxb1 integrase are ligated in sequence, and participate in intracellular signal processing to detect the effect of promoter strength and different recombinases on the system.<br>
+
插细胞荧光图<br>
+
TetO-miniCMV-Tp901-pSB1C3<br>
+
The TetO sequence, SV40 NLS, flag tag, miniCMV promoter, and Tp901 integrase are ligated in sequence to participate in intracellular signal processing for detecting the strength of the promoter and the effects of different recombinases on the system.<br>
+
插细胞荧光图<br>
+
TetO-EF1a-Tp901-pSB1C3<br>
+
The TetO sequence, SV40 NLS, flag tag, EF1a promoter, and Tp901 integrase are ligated in sequence, and participate in intracellular signal processing to detect the effect of promoter strength and different recombinases on the system.<br>
+
插细胞荧光图<br>
+
  
<br>
 
TetO-EF1a-PhiC31-pSB1C3<br>
 
The TetO sequence, SV40 NLS, flag tag, EF1a promoter, and PhiC31 integrase are ligated in sequence, and participate in intracellular signal processing to detect the effect of promoter strength and different recombinases on the system.<br>
 
插细胞荧光图<br>
 
  
<br>
+
<h3>TP901 attB-mCherry-TP901 attP</h3>
EF1a-EGFP-pSB1C3<br>
+
<p>Long description:We added TP901 recombination sites, attB and attP, at both ends of the reporter gene mCherry (Inverted). When PhiC31 is expressed, attB and attP are recognized, and the sequence of mCherry is inverted to enable normal expression.<br>
The EF1a promoter and EGFP coding sequences were ligated in sequence to characterize promoter strength.<br>
+
Source: After the recombination site of TP901 was found in the literature, it was sent to Kingsray for synthesis.<br>
插细胞荧光图<br>
+
Design considerations:The sequence of the mCherry is inverted. To facilitate cloning, we randomly added some bases on both sides of attB and attP.<br></p>
  
<br>
 
miniCMV-EGFP-pSB1C3<br>
 
The miniCMV promoter and the EGFP coding sequence were ligated in sequence for characterizing the promoter strength.<br>
 
插细胞荧光图<br>
 
  
<br>
+
<h3>TP901 attB-TP901 attP</h3>
Ubc-EGFP-pSB1C3<br>
+
<p>Long description:TP901-attB and TP901-attP are recognition and recombination sites for TP901 recombinase.<br>
The Ubc promoter and EGFP coding sequences were ligated in sequence for characterizing promoter strength.<br>
+
Source:After the recombination site of TP901 was found in the literature, it was sent to Kingsray for synthesis.<br>
插细胞荧光图<br>
+
Design considerations:To facilitate cloning, we randomly added some bases on both sides of attB and attP.<br></p>
 +
<img src="https://static.igem.org/mediawiki/2018/2/26/T--NAU-China--part4.jpg"><br>
 +
 
 +
<h3>TetO-miniCMV promoter-Bxb1</h3>
 +
<p>Long description:The TetO sequence, SV40 NLS, flag tag, miniCMV promoter, Bxb1 recombinase are sequentially linked and involved in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.<br>
 +
Source:The TetO sequence was cloned from a Commercialized plasmid. The miniCMV promoter was cloned from ?We found the coding sequence of Bxb1 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:SV40 NLS and flag was added by PCR. <br></p>
 +
 
 +
 
 +
<h3>TetO-EF1αpromoter-Bxb1</h3>
 +
<p>Long description:The TetO sequence, SV40 NLS, flag tag, EF1α promoter, and Bxb1 recombinase are ligated in sequence, and participate in intracellular signal processing.According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.<br>
 +
Source:The TetO sequence was cloned from a Commercialized plasmid. The EF1αpromoter was cloned from ?We found the coding sequence of Bxb1 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:SV40 NLS and flag was added by PCR. <br></p>
 +
 
 +
 
 +
<h3>TetO-Ubc promoter-Bxb1</h3>
 +
<p>Long description:The TetO sequence, SV40 NLS, flag tag, Ubc promoter, and Bxb1 recombinase are ligated in sequence, and participate in intracellular signal processing.According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.<br>
 +
Source:The TetO sequence was cloned from a Commercialized plasmid. The Ubc promoter was cloned from ?We found the coding sequence of Bxb1 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:SV40 NLS and flag was added by PCR. <br></p>
 +
 
 +
<h3>TetO-miniCMV-PhiC31</h3>
 +
<p>Long description:The TetO sequence, SV40 NLS, flag tag, minCMV promoter, and PhiC31 recombinase are ligated in sequence, and participate in intracellular signal processing.According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.<br>
 +
Source:The TetO sequence was cloned from a Commercialized plasmid. The miniCMV promoter was cloned from ?We found the coding sequence of PhiC31 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:SV40 NLS and flag was added by PCR. <br></p>
 +
 
 +
<h3>TetO-EF1α-PhiC31</h3>
 +
<p>Long description:The TetO sequence, SV40 NLS, flag tag, EF1α promoter, and PhiC31 recombinase are ligated in sequence, and participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.<br>
 +
Source:The TetO sequence was cloned from a Commercialized plasmid. The EF1α promoter was cloned from ?We found the coding sequence of PhiC31 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:SV40 NLS and flag was added by PCR. <br>
 +
插细胞荧光图<br></p>
 +
 
 +
<h3>TetO-Ubc promoter-PhiC31</h3>
 +
<p>Long description:The TetO sequence, SV40 NLS, flag tag, Ubc promoter, and PhiC31 recombinase are ligated in sequence, and participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.<br>
 +
Source:The TetO sequence was cloned from a Commercialized plasmid. The Ubc promoter was cloned from ?We found the coding sequence of PhiC31 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:SV40 NLS and flag was added by PCR. <br></p>
 +
 
 +
<h3>TetO-miniCMV promoter-TP901</h3>
 +
<p>Long description:The TetO sequence, SV40 NLS, flag tag, miniCMV promoter, and TP901 recombinase are ligated in sequence to participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.插细胞荧光图<br>
 +
Source:The TetO sequence was cloned from a Commercialized plasmid. The miniCMV promoter was cloned from ?We found the coding sequence of TP901 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:SV40 NLS and flag was added by PCR. <br>
 +
<img src="https://static.igem.org/mediawiki/2018/thumb/4/4b/T--NAU-China--part5.jpg/1194px-T--NAU-China--part5.jpg"><br>
 +
Figure XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX<br></p>
 +
 
 +
 
 +
<h3>TetO-EF1α-TP901</h3>
 +
<p>Long description:The TetO sequence, SV40 NLS, flag tag, EF1α promoter, and Tp901 recombinase are ligated in sequence, and participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.<br>
 +
Source:The TetO sequence was cloned from a Commercialized plasmid. The EF1α promoter was cloned from ?We found the coding sequence of TP901 on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:SV40 NLS and flag was added by PCR. <br>
 +
<img src="https://static.igem.org/mediawiki/2018/thumb/4/4b/T--NAU-China--part6.jpg/1194px-T--NAU-China--part6.jpg"><br>
 +
Figure XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX<br></p>
 +
 
 +
<h3>TetO-Ubc promoter-TP901</h3>
 +
<p>Long description:The TetO sequence, SV40 NLS, flag tag, Ubc promoter, and TP901 recombinase are ligated in sequence, and participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.<br>
 +
Source:The TetO sequence was cloned from a Commercialized plasmid. The Ubc promoter was cloned from ?We found the coding sequence of TP901on NCBI and, after humanization, sent it to Kingsray for synthesis.<br>
 +
Design considerations:SV40 NLS and flag was added by PCR. <br>
 +
<img src="https://static.igem.org/mediawiki/2018/3/3b/T--NAU-China--part7.jpg"><br></p>
 +
 
 +
<h3>miniCMV promoter-Bxb1-RDF</h3>
 +
<p>Long description:Bxb1-RDF recognizes the Bxb1 attL and Bxb1 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.<br>
 +
Source:Bxb1-RDF is a fusion protein of Bxb1 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.<br>
 +
Design considerations:In order to allow Bxb1-RDF to enter the nucleus, we added SV40 NLS after PCR.<br></p>
 +
 
 +
 
 +
<h3>EF1αpromoter-Bxb1-RDF</h3>
 +
<p>Long description:Bxb1-RDF recognizes the Bxb1 attL and Bxb1 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.<br>
 +
Source:Bxb1-RDF is a fusion protein of Bxb1 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.<br>
 +
Design considerations:In order to allow Bxb1-RDF to enter the nucleus, we added SV40 NLS after PCR.<br></p>
 +
 
 +
 
 +
<h3>Ubc promoter-Bxb1-RDF</h3>
 +
<p>Long description:Bxb1-RDF recognizes the Bxb1 attL and Bxb1 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.<br>
 +
Source:Bxb1-RDF is a fusion protein of Bxb1 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.<br>
 +
Design considerations:In order to allow Bxb1-RDF to enter the nucleus, we added SV40 NLS after PCR.<br></p>
 +
 
 +
<h3>miniCMV promoter-PhiC31</h3>
 +
<p>Long description:PhiC31-RDF recognizes the PhiC31 attL and PhiC31 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.<br>
 +
Source:PhiC31-RDF is a fusion protein of PhiC31 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.<br>
 +
Design considerations:In order to allow PhiC31-RDF to enter the nucleus, we added SV40 NLS after PCR.<br></p>
 +
 
 +
 
 +
<h3>EF1αpromoter-PhiC31</h3>
 +
<p>Long description:PhiC31-RDF recognizes the PhiC31 attL and PhiC31 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.<br>
 +
Source:PhiC31-RDF is a fusion protein of PhiC31 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.<br>
 +
Design considerations:In order to allow PhiC31-RDF to enter the nucleus, we added SV40 NLS after PCR.<br></p>
 +
 
 +
<h3>Ubc promoter--PhiC31-RDF</h3>
 +
<p>Long description:PhiC31-RDF recognizes the PhiC31 attL and Bxb1 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.<br>
 +
Source:PhiC31-RDF is a fusion protein of PhiC31 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.<br>
 +
Design considerations:In order to allow PhiC31-RDF to enter the nucleus, we added SV40 NLS after PCR.<br></p>
 +
 
 +
 
 +
<h3>miniCMV promoter-TP901-RDF</h3>
 +
<p>Long description:TP901-RDF recognizes the TP901 attL and TP901 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.<br>
 +
Source:TP901-RDF is a fusion protein of Bxb1 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.<br>
 +
Design considerations:In order to allow TP901-RDF to enter the nucleus, we added SV40 NLS after PCR.<br></p>
 +
 
 +
<h3>EF1αpromoter--TP901-RDF</h3>
 +
<p>Long description:TP901-RDF recognizes the TP901 attL and TP901attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.<br>
 +
Source:TP901-RDF is a fusion protein of TP901 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.<br>
 +
Design considerations:In order to allow TP901-RDF to enter the nucleus, we added SV40 NLS after PCR.<br></p>
 +
 
 +
<h3>Ubc promoter--TP901-RDF</h3>
 +
<p>Long description:TP901-RDF recognizes the TP901 attL and TP901 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.<br>
 +
Source:TP901-RDF is a fusion protein of TP901 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.<br>
 +
Design considerations:In order to allow TP901-RDF to enter the nucleus, we added SV40 NLS after PCR.<br>
 +
<img src="https://static.igem.org/mediawiki/2018/c/ce/T--NAU-China--part8.jpg"><br></p>
 +
 
 +
<h3>TetO-miniCMV promoter- EGFP</h3>
 +
<p>Long description:The miniCMV promoter and the EGFP coding sequence were ligated in sequence for characterizing the promoter strength.<br>
 +
Source:The miniCMV promoter was cloned from? The EFGP was cloned from?<br>
 +
Design considerations:In order to facilitate the construction of TetO-miniCMV promoter -recombinase parts, We added the TetO sequence before the miniCMV promoter. However, in the absence of TetR, The TetO sequence does not affect the strength of the promoter, that is, it does not affect the expression of EGFP.<br>
 +
<img src="https://static.igem.org/mediawiki/2018/5/5f/T--NAU-China--part9.jpg"><br></p>
 +
 
 +
 
 +
<h3>TetO-EF1α promoter -EGFP</h3>
 +
<p>Long description:The EF1α promoter and EGFP coding sequences were ligated in sequence to characterize promoter strength.<br>
 +
Source:The EF1α promoter was cloned from? The EFGP was cloned from?<br>
 +
Design considerations:In order to facilitate the construction of TetO-EF1αpromoter -recombinase parts, We added the TetO sequence before the EF1α promoter. However, in the absence of TetR, The TetO sequence does not affect the strength of the promoter, that is, it does not affect the expression of EGFP.<br>
 +
<img src="https://static.igem.org/mediawiki/2018/1/18/T--NAU-China--part11.jpg"><br></p>
 +
 
  
 +
<h3>TetO-Ubc promoter- EGFP</h3>
 +
<p>Long description:The Ubc promoter and EGFP coding sequences were ligated in sequence for characterizing promoter strength.<br>
 +
Source:The Ubc promoter was cloned from? The EFGP was cloned from?<br>
 +
Design considerations:In order to facilitate the construction of TetO-Ubc promoter -recombinase parts, We added the TetO sequence before the Ubc  promoter. However, in the absence of TetR, The TetO sequence does not affect the strength of the promoter, that is, it does not affect the expression of EGFP.<br>
 +
<img src="https://static.igem.org/mediawiki/2018/thumb/b/bc/T--NAU-China--part13.jpg/1183px-T--NAU-China--part13.jpg"><br></p>
  
  
</p>
 
 
</body>
 
</body>
  

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anti-GFP-mnotch-TEV protease--NLS



Long description:The Notch receptor is a natural cell surface receptor whose extramembrane domain can be replaced by a variety of receptors, and the intramembrane domain can be replaced with a variety of transcription factors to construct a customized cell signaling pathway. We retained the conserved mmotch transmembrane domain, replacing the extracellular domain with anti-GFP and the intracellular domain with the TEV protease, thereby converting the extracellular signal into an intracellular signal.
Source:We borrowed the Anti-GFP-mnotch-tetR-VP64-V2 plasmid from Fudan University. After the TEV protease sequence used by the iGEM17_Oxford group was found on the iGEM website, it was sent to Kingsray for synthesis.
Design considerations:Since we need TEV protease to enter the nucleus, we added SV40 NLS to the back of the TEV protease.Since we used animal cells as the chassis organism, the coding sequence was humanized.

Figure 1. Effects of cell surface-expressed GFP on synNotch-TEV. A. 1.Fluorescence microscope observation of HEK 293 T transfected with plasmid containing synNotch. The cells were cross-linked with GFP. The results showed that synNotch can be located to the membrane. 2.Blank control (without transfection). B. Assay of the synNotch-TEV and FLAG-tagged TEV concentration affected by cell surface-expressed GFP. C,D. Relative level of the synNotch-TEV and FLAG-tagged TEV affected by cell surface-expressed GFP. synNotch-TEV affected by surface-expressed GFP can be resolved into FLAG-TEV and V5-mNotch. Data are mean ±S.E. (n=3). **, p < 0.01; N.S., no significance.


Bxb1 recombinase


Long description:Bxb1 is a widely studied recombinase that we use to mediate intracellular signals.
Source:We found the coding sequence of Bxb1 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:Since we used animal cells as the chassis organism, the coding sequence was humanized.


Bxb1 attB-RFP-Bxb1 attP



Long description:We added Bxb1 recombination sites, attB and attP, at both ends of the reporter gene RFP (Inverted). When Bxb1 is expressed, attB and attP are recognized, and the sequence of RFP is inverted to enable normal expression.
Source:RFP? After the recombination site of Bxb1 was found in the literature, it was sent to Kingsray for synthesis.
Design considerations:The sequence of the RFP is inverted. To facilitate cloning, we randomly added some bases on both sides of attB and attP.

Bxb1 attB-Bxb1 attP

Long description:Bxb1-attB and Bxb1-attP are recognition and recombination sites for Bxb1 recombinase.
Source:After the recombination site of Bxb1 was found in the literature, it was sent to Kingsray for synthesis.
Design considerations:To facilitate cloning, we randomly added some bases on both sides of attB and attP.

PhiC31 recombinase

Long description:PhiC31 is a widely studied recombinase that we use to mediate intracellular signals.
Source:We found the coding sequence of PhiC31 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:Since we used animal cells as the chassis organism, the coding sequence was humanized.

PhiC31 attB-mCherry-Bxb1 attP

Long description:We added PhiC31 recombination sites, attB and attP, at both ends of the reporter gene mCherry (Inverted). When PhiC31 is expressed, attB and attP are recognized, and the sequence of RFP is inverted to enable normal expression.
Source: After the recombination site of PhiC31 was found in the literature, it was sent to Kingsray for synthesis.
Design considerations:The sequence of the mCherry is inverted. To facilitate cloning, we randomly added some bases on both sides of attB and attP.

PhiC31 attB-Bxb1 attP

Long description:PhiC31-attB and PhiC31-attP are recognition and recombination sites for PhiC31 recombinase.
Source:After the recombination site of PhiC31 was found in the literature, it was sent to Kingsray for synthesis.
Design considerations:To facilitate cloning, we randomly added some bases on both sides of attB and attP.

TP901 recombinase

Long description:TP901 is a widely studied recombinase that we use to mediate intracellular signals.
Source:We found the coding sequence of TP901 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:Since we used animal cells as the chassis organism, the coding sequence was humanized.

TP901 attB-mCherry-TP901 attP

Long description:We added TP901 recombination sites, attB and attP, at both ends of the reporter gene mCherry (Inverted). When PhiC31 is expressed, attB and attP are recognized, and the sequence of mCherry is inverted to enable normal expression.
Source: After the recombination site of TP901 was found in the literature, it was sent to Kingsray for synthesis.
Design considerations:The sequence of the mCherry is inverted. To facilitate cloning, we randomly added some bases on both sides of attB and attP.

TP901 attB-TP901 attP

Long description:TP901-attB and TP901-attP are recognition and recombination sites for TP901 recombinase.
Source:After the recombination site of TP901 was found in the literature, it was sent to Kingsray for synthesis.
Design considerations:To facilitate cloning, we randomly added some bases on both sides of attB and attP.


TetO-miniCMV promoter-Bxb1

Long description:The TetO sequence, SV40 NLS, flag tag, miniCMV promoter, Bxb1 recombinase are sequentially linked and involved in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.
Source:The TetO sequence was cloned from a Commercialized plasmid. The miniCMV promoter was cloned from ?We found the coding sequence of Bxb1 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:SV40 NLS and flag was added by PCR.

TetO-EF1αpromoter-Bxb1

Long description:The TetO sequence, SV40 NLS, flag tag, EF1α promoter, and Bxb1 recombinase are ligated in sequence, and participate in intracellular signal processing.According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.
Source:The TetO sequence was cloned from a Commercialized plasmid. The EF1αpromoter was cloned from ?We found the coding sequence of Bxb1 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:SV40 NLS and flag was added by PCR.

TetO-Ubc promoter-Bxb1

Long description:The TetO sequence, SV40 NLS, flag tag, Ubc promoter, and Bxb1 recombinase are ligated in sequence, and participate in intracellular signal processing.According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.
Source:The TetO sequence was cloned from a Commercialized plasmid. The Ubc promoter was cloned from ?We found the coding sequence of Bxb1 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:SV40 NLS and flag was added by PCR.

TetO-miniCMV-PhiC31

Long description:The TetO sequence, SV40 NLS, flag tag, minCMV promoter, and PhiC31 recombinase are ligated in sequence, and participate in intracellular signal processing.According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.
Source:The TetO sequence was cloned from a Commercialized plasmid. The miniCMV promoter was cloned from ?We found the coding sequence of PhiC31 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:SV40 NLS and flag was added by PCR.

TetO-EF1α-PhiC31

Long description:The TetO sequence, SV40 NLS, flag tag, EF1α promoter, and PhiC31 recombinase are ligated in sequence, and participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.
Source:The TetO sequence was cloned from a Commercialized plasmid. The EF1α promoter was cloned from ?We found the coding sequence of PhiC31 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:SV40 NLS and flag was added by PCR.
插细胞荧光图

TetO-Ubc promoter-PhiC31

Long description:The TetO sequence, SV40 NLS, flag tag, Ubc promoter, and PhiC31 recombinase are ligated in sequence, and participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.
Source:The TetO sequence was cloned from a Commercialized plasmid. The Ubc promoter was cloned from ?We found the coding sequence of PhiC31 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:SV40 NLS and flag was added by PCR.

TetO-miniCMV promoter-TP901

Long description:The TetO sequence, SV40 NLS, flag tag, miniCMV promoter, and TP901 recombinase are ligated in sequence to participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.插细胞荧光图
Source:The TetO sequence was cloned from a Commercialized plasmid. The miniCMV promoter was cloned from ?We found the coding sequence of TP901 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:SV40 NLS and flag was added by PCR.

Figure XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

TetO-EF1α-TP901

Long description:The TetO sequence, SV40 NLS, flag tag, EF1α promoter, and Tp901 recombinase are ligated in sequence, and participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.
Source:The TetO sequence was cloned from a Commercialized plasmid. The EF1α promoter was cloned from ?We found the coding sequence of TP901 on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:SV40 NLS and flag was added by PCR.

Figure XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

TetO-Ubc promoter-TP901

Long description:The TetO sequence, SV40 NLS, flag tag, Ubc promoter, and TP901 recombinase are ligated in sequence, and participate in intracellular signal processing. According to the feedback of the digital model, the different strength promoters upstream of the recombinase and the recombination efficiency of the recombinase will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three recombinases, hoping to find the optimal solution.
Source:The TetO sequence was cloned from a Commercialized plasmid. The Ubc promoter was cloned from ?We found the coding sequence of TP901on NCBI and, after humanization, sent it to Kingsray for synthesis.
Design considerations:SV40 NLS and flag was added by PCR.

miniCMV promoter-Bxb1-RDF

Long description:Bxb1-RDF recognizes the Bxb1 attL and Bxb1 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.
Source:Bxb1-RDF is a fusion protein of Bxb1 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.
Design considerations:In order to allow Bxb1-RDF to enter the nucleus, we added SV40 NLS after PCR.

EF1αpromoter-Bxb1-RDF

Long description:Bxb1-RDF recognizes the Bxb1 attL and Bxb1 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.
Source:Bxb1-RDF is a fusion protein of Bxb1 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.
Design considerations:In order to allow Bxb1-RDF to enter the nucleus, we added SV40 NLS after PCR.

Ubc promoter-Bxb1-RDF

Long description:Bxb1-RDF recognizes the Bxb1 attL and Bxb1 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.
Source:Bxb1-RDF is a fusion protein of Bxb1 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.
Design considerations:In order to allow Bxb1-RDF to enter the nucleus, we added SV40 NLS after PCR.

miniCMV promoter-PhiC31

Long description:PhiC31-RDF recognizes the PhiC31 attL and PhiC31 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.
Source:PhiC31-RDF is a fusion protein of PhiC31 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.
Design considerations:In order to allow PhiC31-RDF to enter the nucleus, we added SV40 NLS after PCR.

EF1αpromoter-PhiC31

Long description:PhiC31-RDF recognizes the PhiC31 attL and PhiC31 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.
Source:PhiC31-RDF is a fusion protein of PhiC31 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.
Design considerations:In order to allow PhiC31-RDF to enter the nucleus, we added SV40 NLS after PCR.

Ubc promoter--PhiC31-RDF

Long description:PhiC31-RDF recognizes the PhiC31 attL and Bxb1 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.
Source:PhiC31-RDF is a fusion protein of PhiC31 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.
Design considerations:In order to allow PhiC31-RDF to enter the nucleus, we added SV40 NLS after PCR.

miniCMV promoter-TP901-RDF

Long description:TP901-RDF recognizes the TP901 attL and TP901 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.
Source:TP901-RDF is a fusion protein of Bxb1 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.
Design considerations:In order to allow TP901-RDF to enter the nucleus, we added SV40 NLS after PCR.

EF1αpromoter--TP901-RDF

Long description:TP901-RDF recognizes the TP901 attL and TP901attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.
Source:TP901-RDF is a fusion protein of TP901 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.
Design considerations:In order to allow TP901-RDF to enter the nucleus, we added SV40 NLS after PCR.

Ubc promoter--TP901-RDF

Long description:TP901-RDF recognizes the TP901 attL and TP901 attR sequences, so the intermediate sequence can be flipped back and the reporter gene expression is turned off. According to the feedback of the digital model, the different strength promoters upstream of the RDF and the recombination efficiency of the RDF will affect the stability of the system. Therefore, in order to optimize our system, we used three promoters and three RDFs, hoping to find the optimal solution.
Source:TP901-RDF is a fusion protein of TP901 and the corresponding RDF. We obtained their sequences from the literature and, after humanization, sent them to Kingsray for synthesis.
Design considerations:In order to allow TP901-RDF to enter the nucleus, we added SV40 NLS after PCR.

TetO-miniCMV promoter- EGFP

Long description:The miniCMV promoter and the EGFP coding sequence were ligated in sequence for characterizing the promoter strength.
Source:The miniCMV promoter was cloned from? The EFGP was cloned from?
Design considerations:In order to facilitate the construction of TetO-miniCMV promoter -recombinase parts, We added the TetO sequence before the miniCMV promoter. However, in the absence of TetR, The TetO sequence does not affect the strength of the promoter, that is, it does not affect the expression of EGFP.

TetO-EF1α promoter -EGFP

Long description:The EF1α promoter and EGFP coding sequences were ligated in sequence to characterize promoter strength.
Source:The EF1α promoter was cloned from? The EFGP was cloned from?
Design considerations:In order to facilitate the construction of TetO-EF1αpromoter -recombinase parts, We added the TetO sequence before the EF1α promoter. However, in the absence of TetR, The TetO sequence does not affect the strength of the promoter, that is, it does not affect the expression of EGFP.

TetO-Ubc promoter- EGFP

Long description:The Ubc promoter and EGFP coding sequences were ligated in sequence for characterizing promoter strength.
Source:The Ubc promoter was cloned from? The EFGP was cloned from?
Design considerations:In order to facilitate the construction of TetO-Ubc promoter -recombinase parts, We added the TetO sequence before the Ubc promoter. However, in the absence of TetR, The TetO sequence does not affect the strength of the promoter, that is, it does not affect the expression of EGFP.