Difference between revisions of "Part:BBa K2918050"
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===Strain Construction=== | ===Strain Construction=== | ||
− | The construct was assembled by golden gate assembly based modular cloning system. First, the individual transcriptional units were cloned into level 1 destination vectors <html><a href="http://www.addgene.org/47761/" target="_blank">pICH47761</a> | + | The construct was assembled by golden gate assembly based modular cloning system. First, the individual transcriptional units were cloned into level 1 destination vectors <html><a href="http://www.addgene.org/47761/" target="_blank">pICH47761</a></html> and <html><a href="http://www.addgene.org/47822/" target="_blank">pICH47822</a>.</html> by BpiI based golden gate assembly. The multi-transcriptional unit construct was assembled by a BsaI based golden gate. The assembly was a one-pot restriction-ligation reaction where the individual level 1 constructs were added along with the destination vector <html><a href="http://www.addgene.org/48055/" target="_blank">pICH48055</a></html>. The correct clone was distinguished by blue-white screening and the construct was confirmed by sequencing. The cloning protocol can be found in the MoClo section below. |
===Modular Cloning=== | ===Modular Cloning=== |
Revision as of 22:53, 19 October 2019
Cross-species based iFFL
Genetic implementation of an incoherent feed forward loop (iFFL) in which a stabilized broad host range (PBHR) promoter is controlling GFP expression.
Sequence and Features
- 10INCOMPATIBLE WITH RFC[10]Illegal PstI site found at 283
Illegal PstI site found at 2538 - 12INCOMPATIBLE WITH RFC[12]Illegal PstI site found at 283
Illegal PstI site found at 2538 - 21INCOMPATIBLE WITH RFC[21]Illegal XhoI site found at 250
Illegal XhoI site found at 3383 - 23INCOMPATIBLE WITH RFC[23]Illegal PstI site found at 283
Illegal PstI site found at 2538 - 25INCOMPATIBLE WITH RFC[25]Illegal PstI site found at 283
Illegal PstI site found at 2538
Illegal AgeI site found at 1277 - 1000COMPATIBLE WITH RFC[1000]
The two transcriptional units in this composite part are oriented outwards.
Usage and Biology
A incoherent feed-forward loop (iFFL) is a unique control systems motif where the output signal is robust to changes in the input signal. This is achieved by the introduction of a repressor.
iFFL can be applied to genetic circuits to achieve expression independent from copy number, transcriptional and translational rates. To implement the iFFL in a genetic circuit, TALE proteins can be used. These proteins consist of repeats where 12th and 13th amino acids can vary, these are called the repeat variable diresidue (RVD). RVDs have been shown to bind to DNA in a simple one-to-one binding code (Doyle, Stoddard et al., 2013). The direct correspondence between amino acids allows scientists to engineer these repeat regions to target any sequence they want. In our system, we used the TALE protein as a repressor by engineering promoters to contain the binding site of this specific TALE protein (0.1 T7sp1 promoter, 0.5 T7sp1 promoter and PBHRsp1 promoter).
In our genetic circuit, a unrepressed promoter controls the expression of TALE protein while the promoters with the TALE binding sites drive expression of GFP.
When transcriptional units are placed in series, due to low effieciency of terminators, leaky expression of the gene in the neighbouring transcriptonal unit can occur. This significantly influences the behavior of the iFFL genetic circuit (Segall-Shapiro et al., 2018). Hence, the transcriptional units in the circuit are oriented outward to achieve insulation from influence of the neighboring transcriptional unit.
An interesting application of the iFFL is to achieve controllable gene expression across different bacterial species. Gene expression in different bacterial contexts is influenced by changes in copy number, transcriptional and translational rates. iFFL based on broad host range promoters (PBHR promoter and PBHRsp1 promoter) has been demonstrated below to achieve controllable expression between E. coli and P. putida .
Strain Construction
The construct was assembled by golden gate assembly based modular cloning system. First, the individual transcriptional units were cloned into level 1 destination vectors pICH47761 and pICH47822. by BpiI based golden gate assembly. The multi-transcriptional unit construct was assembled by a BsaI based golden gate. The assembly was a one-pot restriction-ligation reaction where the individual level 1 constructs were added along with the destination vector pICH48055. The correct clone was distinguished by blue-white screening and the construct was confirmed by sequencing. The cloning protocol can be found in the MoClo section below.
Modular Cloning
Modular Cloning (MoClo) is a system which allows for efficient one pot assembly of multiple DNA fragments. The MoClo system consists of Type IIS restriction enzymes that cleave DNA 4 to 8 base pairs away from the recognition sites. Cleavage outside of the recognition site allows for customization of the overhangs generated. The MoClo system is hierarchical. First, basic parts (promoters, UTRs, CDS and terminators) are assembled in level 0 plasmids in the kit. In a single reaction, the individual parts can be assembled into vectors containing transcriptional units (level 1). Furthermore, MoClo allows for directional assembly of multiple transcriptional units. Successful assembly of constructs using MoClo can be confirmed by visual readouts (blue/white or red/white screening). For the protocol, you can find it here.
Note: The basic parts sequences of the Sci-Phi 29 collection in the registry contain only the part sequence and therefore contain no overhangs or restriction sites. For synthesizing MoClo compatible parts, refer to table 2. The complete sequence of our parts including backbone can be found here.
Level | Basic/Composite | Type | Enzyme |
---|---|---|---|
Level 0 | Basic | Promoters, 5’ UTR, CDS and terminators | BpiI |
Level 1 | Composite | Transcriptional units | BsaI |
Level 2/M/P | Composite | Multiple transcriptional units | BpiI |
For synthesizing basic parts, the part of interest should be flanked by a BpiI site and its specific type overhang. These parts can then be cloned into the respective level 0 MoClo parts. For level 1, where individual transcriptional units are cloned, the overhangs come from the backbone you choose. The restriction sites for level 1 are BsaI. However, any type IIS restriction enzyme could be used.
Table 2: Type specific overhangs and backbones for MoClo. Green indicates the restriction enzyme recognition site. Blue indicates the specific overhangs for the basic parts
Basic Part | Sequence 5' End | Sequence 3' End | Level 0 backbone |
---|---|---|---|
Promoter | NNNN GAAGAC NN GGAG | TACT NN GTCTTC NNNN | pICH41233 |
5’ UTR | NNNN GAAGAC NN TACT | AATG NN GTCTTC NNNN | pICH41246 |
CDS | NNNN GAAGAC NN AATG | GCTT NN GTCTTC NNNN | pICH41308 |
Terminator | NNNN GAAGAC NN GCTT | CGCT NN GTCTTC NNNN | pICH41276 |
Characterization
References