Difference between revisions of "Part:BBa K2549034"

Revision as of 14:29, 12 October 2018

8*ZF21.16-minCMV-2*ZF43.8

This part is one of the response elements of our amplifier, also executing the combiner function. 8*ZF21.16 binding sites and 2*ZF43.8 binding sites (Part:BBa_K2549051) can bind to different zinc finger-based transcription activator ZF21.16-VP64 (Part:BBa_K2549023) and zinc finger-based repressor ZF43.8-KRAB (Part:BBa_K2446041), respectively, with high orthogonality. Minimal CMV (Part:BBa_K2549049) is a promotor providing very low basal expression and high maximal expression after induction. This part was designed to construct our NIMPLY logic gate and test our multiple binding sites amplifier model^[1].

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]

Biology

It works as we designed

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Different transcription factors interaction with multiple binding sites

Promotor operator numbers can have an impact on tuning output

Synthetic promotor operators regulated by artificial zinc finger-based transcription factors

Khalil AS et al have reported several synthetic promotor operators which can interact with artificial zinc finger-based transcription factors with high specificity and high orthogonality^[2].

Khalil AS et al stated:sTFs constructed from OPEN-engineered ZFs are orthogonal to one another. sTF43-8 activated noncognate Promoter21-16 due to the fortuitous creation of a sequence that is significantly similar to the binding sequence of 43-8, when the downstream BamHI restriction site is considered.

Khalil AS et al stated:Tuning up output strength by increasing ZF operator number in synthetic promoter (sTF43-8).

References

↑ http://2018.igem.org/Team:Fudan/Model#Transcriptional_Amplifer
↑ A synthetic biology framework for programming eukaryotic transcription functions. Khalil AS, Lu TK, Bashor CJ, ..., Joung JK, Collins JJ. Cell, 2012 Aug;150(3):647-58 PMID: 22863014; DOI: 10.1016/j.cell.2012.05.045

[1] ttp://2018.igem.org/Team:Fudan/Model#Transcriptional_Amplifer

[2] A synthetic biology framework for programming eukaryotic transcription functions. Khalil AS, Lu TK, Bashor CJ, ..., Joung JK, Collins JJ. Cell, 2012 Aug;150(3):647-58 PMID: 22863014; DOI: 10.1016/j.cell.2012.05.045

[1]

[2]

@@ Line 21: / Line 21: @@
 Khalil AS et al have reported several synthetic promotor operators which can interact with artificial zinc finger-based transcription factors with high specificity and high orthogonality<ref>A synthetic biology framework for programming eukaryotic transcription functions. Khalil AS, Lu TK, Bashor CJ, ..., Joung JK, Collins JJ. Cell, 2012 Aug;150(3):647-58  PMID: 22863014; DOI: 10.1016/j.cell.2012.05.045</ref>.
-[[File:ZF2.jpg|none|540px|thumb|Khalil AS et al stated:''sTFs constructed from OPEN-engineered ZFs are orthogonal to one another. sTF43-8 activated noncognate Promoter21-16 due to the fortuitous creation of a sequence that is significantly similar to the binding sequence of 43-8, when the downstream BamHI restriction site is considered.'']]
+[[File:ZF2.jpg|none|240px|thumb|Khalil AS et al stated:''sTFs constructed from OPEN-engineered ZFs are orthogonal to one another. sTF43-8 activated noncognate Promoter21-16 due to the fortuitous creation of a sequence that is significantly similar to the binding sequence of 43-8, when the downstream BamHI restriction site is considered.'']]
-[[File:ZF3.jpg|none|540px|thumb|Khalil AS et al stated:''Tuning up output strength by increasing ZF operator number in synthetic promoter (sTF43-8).'']]
+[[File:ZF3.jpg|none|240px|thumb|Khalil AS et al stated:''Tuning up output strength by increasing ZF operator number in synthetic promoter (sTF43-8).'']]
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