Difference between revisions of "Part:BBa I714891"

 
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[https://parts.igem.org/Part:BBa_K2559005# Team:SCAU-China 2018]
 
[https://parts.igem.org/Part:BBa_K2559005# Team:SCAU-China 2018]
<p>The BBa_K2559005 is a full-length EGFP coding part improved from BBa_l714891.
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<p>The [https://parts.igem.org/Part:BBa_K2559005# BBa_K2559005] is a amended eGFP coding part improved from BBa_l714891.
 
===Usage and Biology===
 
===Usage and Biology===
The part BBa_K2559006 has an improvement on the basic part submitted by iGEM07_Peking (BBa_l714891) which is cording the SDY_EGFP. We had added 16 bp DNA to fill the length of EGFP cording sequence in BBa_l714891 to crease the BBa_K2559005. Because, we found out a 16 bp deficiency in the EGFP starting cording region of BBa_l714891, after we checked the sequence of BBa_l714891 in NCBI.
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The part BBa_K2559005 has a sequence improvement on the basic part submitted by iGEM07_Peking (BBa_I714891) which encodes the SDY_eGFP. However, we found out a 16 bp nucleotides redundancy in the eGFP starting coding region in BBa_I714891, after checking the sequence of BBa_I714891 from NCBI. Therefore, we decided to delete the redundant 16 bp nucleotides in BBa_I714891 to amend the length of eGFP coding sequence. The amended eGFP coding biobrick is the BBa_K2559005.
In order to test the function of BBa_K2559005, we design a new E.coli expression vector with our new part, BBa_K2559003, a strong E.coli endogenous promoter (PrplJ). The full length EGFP in BBa_K2559005 was driven by PrplJ, and expressed in DH10B. Attention, we also used the BBa_K2559005 in the promoter strength analysis of our other two new parts, the BBa_K2559004 and BBa_K2559011 which are weak E.coli endogenous promoters (PdapA and PcaiF).
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To test the function of BBa_K2559005, we designed a new E.coli expression vector containing our new part termed as [https://parts.igem.org/Part:BBa_K2559003# BBa_K2559003]under a strong E.coli endogenous promoter (PrplJ). Therefore, the amended eGFP in BBa_K2559005 was driven by PrplJ promoter, and expressed in DH10B. In addition, we also applied the BBa_K2559005 in the promoter intensity analysis of our other two new parts, the [https://parts.igem.org/Part:BBa_K2559004# BBa_K2559004] and [https://parts.igem.org/Part:BBa_K2559011# BBa_K2559011] which are relatively weaker E.coli endogenous promoters (PdapA and PcaiF) (Figure 1).
https://static.igem.org/mediawiki/parts/c/ce/Scau-china-2018-11.png
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[[File:Scau-china-2018-11.png|800px|thumb|center]]
  
https://static.igem.org/mediawiki/parts/f/f7/Scau-china-2018-12.png
 
  
We conclude that our improved new part, full length EGFP cording biobrick , BBa_K2559005 can work well in DH10B, and we also hoped that our improvement on the BBa_l714891 can help the future application of this part.
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[[File:Scau-china-2018-12.png|800px|thumb|center|Figure 1: Fluorescent intensity of amended eGFP driven by by PrplJ, PdapA, PcaiF promoter.
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Because the BBa_I714891 is not available, we search the BBa_J04450 stored in Registry and to expand the application of BBa_K2559005.The BBa_J04450 part is a strong RFP expression vector for E.coli because of the strong RBS. As the main page BBa_J04450 mentioned, the E.coli  colonies with BBa_J04450 were red in color under natural light after about 18 hour culture in LB plate. We used the BBa_K2559005 to replace the RFP region in BBa_J04450, the restructured vector from those two parts is [https://parts.igem.org/Part:BBa_K2559009# BBa_K2559009].
 
We transferred the BBa_K2559009 to DH5α by heat-shock transformation, and found that the fluorescence signal can be observe clearly under the UV.
 
  
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We summarized that our improvedpart, the amended eGFP coding biobrick BBa_K2559005 worked well in DH10B. We also hoped that our improvement on the BBa_I714891 can help their future applications by other groups in the future. However, it is difficult for us to perform additional experiments with BBa_K2559005 and BBa_I714891 due to the unavailable BBa_I714891.
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To expand the application of BBa_K2559005, we searched the[https://parts.igem.org/Part:BBa_J04450# BBa_J04450]stored in registry and do another improvement in the BBa_J04450. The BBa_J04450 is a strong RFP expression vector in E.coli. As the main page of BBa_J04450 mentioned, the E.coli colonies with BBa_J04450 were in red color under normal light after about 18 hour culture on LB plate (Figure 2). We used the BBa_K2559005 to replace the RFP region in BBa_J04450, the modified part is [https://parts.igem.org/Part:BBa_K2559009# BBa_K2559009].
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We transferred the BBa_K2559009 to DH5α by heat-shock, and found that the fluorescence signal can be observed under the UV (Figure 2).
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[[File:T-SCAU-China-Red_and_green_colonies.jpg|200px|thumb|center|Figure 2 : Figure 2 Colonies with BBa_J04450 (red colony) and BBa_K2559009 (green colony) were visualized under UV lightbox
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]]
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So, we confirm that our improved part BBa_K2559005 can work in different E.coli expression system. We are also looking forward to more application of the BBa_K2559009!
 
<!-- Add more about the biology of this part here
 
<!-- Add more about the biology of this part here
  

Latest revision as of 13:09, 16 October 2018

SDY_EGFP

a strong reporter

[http://2018.igem.org/Team:AFCM-Egypt# Team:AFCM-Egypt 2018] provided specific characterization for this part by using eGFP for experimental characterization of lentiviral transfer plasmid transfection efficacy and apoptotic effect on colorectal cancer cell line RKO.

GFPAFCM18.png


Team:SCAU-China 2018

The BBa_K2559005 is a amended eGFP coding part improved from BBa_l714891.

Usage and Biology

The part BBa_K2559005 has a sequence improvement on the basic part submitted by iGEM07_Peking (BBa_I714891) which encodes the SDY_eGFP. However, we found out a 16 bp nucleotides redundancy in the eGFP starting coding region in BBa_I714891, after checking the sequence of BBa_I714891 from NCBI. Therefore, we decided to delete the redundant 16 bp nucleotides in BBa_I714891 to amend the length of eGFP coding sequence. The amended eGFP coding biobrick is the BBa_K2559005. To test the function of BBa_K2559005, we designed a new E.coli expression vector containing our new part termed as BBa_K2559003under a strong E.coli endogenous promoter (PrplJ). Therefore, the amended eGFP in BBa_K2559005 was driven by PrplJ promoter, and expressed in DH10B. In addition, we also applied the BBa_K2559005 in the promoter intensity analysis of our other two new parts, the BBa_K2559004 and BBa_K2559011 which are relatively weaker E.coli endogenous promoters (PdapA and PcaiF) (Figure 1).

Scau-china-2018-11.png


Figure 1: Fluorescent intensity of amended eGFP driven by by PrplJ, PdapA, PcaiF promoter.


We summarized that our improvedpart, the amended eGFP coding biobrick BBa_K2559005 worked well in DH10B. We also hoped that our improvement on the BBa_I714891 can help their future applications by other groups in the future. However, it is difficult for us to perform additional experiments with BBa_K2559005 and BBa_I714891 due to the unavailable BBa_I714891.

To expand the application of BBa_K2559005, we searched theBBa_J04450stored in registry and do another improvement in the BBa_J04450. The BBa_J04450 is a strong RFP expression vector in E.coli. As the main page of BBa_J04450 mentioned, the E.coli colonies with BBa_J04450 were in red color under normal light after about 18 hour culture on LB plate (Figure 2). We used the BBa_K2559005 to replace the RFP region in BBa_J04450, the modified part is BBa_K2559009. We transferred the BBa_K2559009 to DH5α by heat-shock, and found that the fluorescence signal can be observed under the UV (Figure 2).

Figure 2 : Figure 2 Colonies with BBa_J04450 (red colony) and BBa_K2559009 (green colony) were visualized under UV lightbox

So, we confirm that our improved part BBa_K2559005 can work in different E.coli expression system. We are also looking forward to more application of the BBa_K2559009! 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]