Difference between revisions of "Part:BBa K4207002"

 
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<partinfo>BBa_K4207002 short</partinfo>
 
<partinfo>BBa_K4207002 short</partinfo>
  
Toehold switch for the detection of BYDV gRNA
 
  
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===1. Usage and Biology===
  
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Toehold switches are engineered riboregulators that control the expression of a downstream protein coding sequence. They can be designed to detect virtually any sequence. Toehold switches are designed <i>in silico</i> so that they fold into a pre-determined secondary structure. This structure contains a stable stem-loop that sequesters the ribosome binding site (RBS) and the start codon, thus preventing translation. After a specific trigger RNA binds to the binding site of the toehold, the lower part of the stem-loop unfolds, revealing the start codon. A weak stem remains, but this structure unfolds upon ribosome binding to the RBS, starting translation (Green et al., 2017). This toehold switch was designed to detect conserved sequences in the X genome. The structural change of the toehold switch is illustrated in Figure 1.
  
===Usage and Biology===
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Toehold switches are de novo designed riboregulators that can be used to sense different nucleic acid sequences. They are specifically designed RNA sequences that have the ribosome binding site (RBS) and the start codon in a stem-loop followed by a reporter gene. The RBS and the start codon are sequestered in the secondary structure, which hinder the translation of the reporter gene. The toehold switch has a specific binding site to its trigger sequence, which extends to the base of the stem-loop. When the trigger binds, it unwinds the lower part of the stem-loop, leaving only a weak secondary structure intact. This remaining structure is designed to be weak, so ribosome binding unwinds the structure, allowing translation to occur. (Green et. al., 2014) (Green et. al., 2017).
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<b>Figure 1</b>. Toehold switch mechanism. This animation illustrates the operation of the toehold switch. Initially, the structure is in an inactive state and the RBS and the start codon are hidden in the stem-loop. When a specific trigger binds to the binding site, the stem-loop structure opens and the ribosome binding site and start codon are revealed.
  
Here we designed a A-series toehold switch, which has a structure allowing lower translational leakage to previous toehold switches (Pardee et. al., 2016). This toehold switch is designed to detect the presence of barley yellow dwarf virus gRNA by binding to a conserved sequence found in the virus' enome.
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To use this toehold switch, it should be assembled in a construct containing a promoter, the toehold switch, a protein-coding sequence, and optionally a terminator if the sensor is not to be used as linear. To prevent frame-shifting, the last nucleotide is omitted from the sequence and this part is compatible with iGEM Type IIS standard assembly.
  
 
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<partinfo>BBa_K4207002 SequenceAndFeatures</partinfo>
 
<partinfo>BBa_K4207002 SequenceAndFeatures</partinfo>
  
<h1>'''2. Design'''</h1>
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===2. Design===
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In order to design heat-repressible RNA-based thermosensores with different melting temperatures, intensity and sensitivity, we change the ARC sequence because the RC sequence is conserved. Three structural parameters come into consideration: stem length, loop size and mismatches or bulges in the stem.
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Stem length is determined by ARC sequence. Adding stem length can optimize heat-repressible RNA-based thermosensors to higher temperature, while decreasing stem length has the opposite effect. The stem length is 10 base parings in K2541114. Loop size can moderate thermosensors melting temperature to an appropriate temperature. In K2541114, the loop sequence is AAAAAUAUAAA. Furthermore, we change base composition in ARC sequence to decrease melting temperature. We make two bulges, one is in the fifth base by inserting U, the other is in the sixth base by inserting U. After designing, the theromsensor sequence is predicted by computational methods mFOLD to get its minimum free energy and secondary structure.
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[[File:K2541114 f2.png|center|K2541114 f2]]
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Figure 2. Design of synthetic heat-repressible RNA-based thermosensor. (A) The RNA secondary structure is predicted by mFOLD. (B) ARC sequence, loop sequence, the site of mismatch or bulge in the stem, ΔG and Tm are in the table.
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<h1>'''3.Characterization'''</h1>
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The thermosensor sequence is constructed on the pSB1C3 vector by GoldenGate assembly. The measurement device is composed of Anderson promoter (BBa_J23106), thermosensor (BBa_K2541114), sfGFP_optimism (BBa_K2541400) and double terminator (BBa_B0010 and BBa_B0012). We select a constitutive Anderson promoter J23106 as an appropriate promoter by pre-experiment. The sfGFP_optimism has faster folding speed and higher fluorescence intensity. The double terminator can reduce leakge (Figure 3). We characterized RNA-based thermosensors in ''E.coli'' DH5a.
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[[File:measurement device 123.png|center|caption]]
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Figure 3. The measurement device.
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This toehold switch was designed according to the A-series ideal structure from Pardee et al. (2016). This structure was improved from the original toehold switch structure (Green et al., 2014) to reduce translational leakage. We screened the BYDV genome for conserved sequences. Each sequence was divided into 36-nucleotide long subsequences and we designed toehold switches designed to specifically bind to the sequence. This toehold switch was designed using the 30-nucleotide linker found in the 27B sensor (Pardee et al., 2016). We assigned a score for each toehold switch based on the three-parameter fit from Ma et al. (2018) and selected the best-ranking toehold switches for our library.
  
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===3. Characterization===
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K2541114, K2541109, K2541119 and K2541101 are four different heat-repressible RNA-based thermosensors. pos.control is positive control. The final normalized fluorescence was calculated as follows: normalized fluorescence = [(Fluorescence/Abs<sub>600</sub>)<sub>TS</sub> - (Fluorescence/Abs<sub>600</sub>)<sub>neg</sub>] / [(Fluorescence/Abs<sub>600</sub>)<sub>pos</sub> - (Fluorescence/Abs<sub>600</sub>)<sub>neg</sub>] ( TS = thermosensor, pos = positive control, and neg = BBa_J364007 ). As shown in figure 4, the fluorescence intensity of K2541114 decreases with elevated temperature.
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</p>
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[[File:K2541114 f4.png|center|K2541114 f4]]
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Figure 4. Characteristics of synthetic heat-repressible RNA-based thermosensors. Each set of three bars represents the activity level of a different thermosensor. The bar colors purple, yellow and red represent the temperatures 29, 37 and 42°C, respectively. The height of the bars corresponds to the normalized fluorescence.
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<b>Score predicted by our model: 16.41</b><br />
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This part was tested in part BBa_K4207061 for the production of β-galactosidase in E. coli Gold-dlac (DE3) lysate-based cell-free expression system. We tested its functionality in two reactions in the absence and presence of its specific ssDNA. This toehold switch produced 0.56-fold activity of β-galactosidase in the presence of the trigger and so did not exhibit the desired trigger-dependent translation.
  
[[File:RE figure6.png|center|RE figure6]]
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===4. Conclusion===
Figure 5. Experimental measurements of the collection of heat-repressible RNA-based thermosensors show a variety of responses. (A) Rows represent activity levels of different thermosensors. (B) Each set of three bars represents the activity level of a different thermosensor. The bar colors purple, yellow and red represent the temperatures 29, 37 and 42°C, respectively. The height of the bars corresponds to the normalized fluorescence.
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<h1>'''4. Conclusion'''</h1>
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The experimental data about this part is limited and the composite part was likely not optimized, so further experiments would be necessary to judge this part’s performance. However, based on the modeling and experimental data combined, we suggest that this toehold switch is not likely to function as desired. For this reason, we’d suggest using BBa_K4207012 or one of BBa_K4207014-BBa_K4207017, as they are more likely to detect the BYDV genome.
<h5>
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<P style="text-indent:2em;">
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Our data show that efficient RNA-based thermosensors with different melting temperatures, intensity and sensitivity can be built from a single small RNA stem-loop structure, thus providing useful SynRT toolkit for the regulation of gene expression.
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</h5>
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<!-- Uncomment this to enable Functional Parameter display  
 
<!-- Uncomment this to enable Functional Parameter display  

Latest revision as of 14:41, 10 October 2022


BYDV toehold switch A70


1. Usage and Biology

Toehold switches are engineered riboregulators that control the expression of a downstream protein coding sequence. They can be designed to detect virtually any sequence. Toehold switches are designed in silico so that they fold into a pre-determined secondary structure. This structure contains a stable stem-loop that sequesters the ribosome binding site (RBS) and the start codon, thus preventing translation. After a specific trigger RNA binds to the binding site of the toehold, the lower part of the stem-loop unfolds, revealing the start codon. A weak stem remains, but this structure unfolds upon ribosome binding to the RBS, starting translation (Green et al., 2017). This toehold switch was designed to detect conserved sequences in the X genome. The structural change of the toehold switch is illustrated in Figure 1.

Figure 1. Toehold switch mechanism. This animation illustrates the operation of the toehold switch. Initially, the structure is in an inactive state and the RBS and the start codon are hidden in the stem-loop. When a specific trigger binds to the binding site, the stem-loop structure opens and the ribosome binding site and start codon are revealed.

To use this toehold switch, it should be assembled in a construct containing a promoter, the toehold switch, a protein-coding sequence, and optionally a terminator if the sensor is not to be used as linear. To prevent frame-shifting, the last nucleotide is omitted from the sequence and this part is compatible with iGEM Type IIS standard assembly.

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]

2. Design

This toehold switch was designed according to the A-series ideal structure from Pardee et al. (2016). This structure was improved from the original toehold switch structure (Green et al., 2014) to reduce translational leakage. We screened the BYDV genome for conserved sequences. Each sequence was divided into 36-nucleotide long subsequences and we designed toehold switches designed to specifically bind to the sequence. This toehold switch was designed using the 30-nucleotide linker found in the 27B sensor (Pardee et al., 2016). We assigned a score for each toehold switch based on the three-parameter fit from Ma et al. (2018) and selected the best-ranking toehold switches for our library.

3. Characterization

Score predicted by our model: 16.41
This part was tested in part BBa_K4207061 for the production of β-galactosidase in E. coli Gold-dlac (DE3) lysate-based cell-free expression system. We tested its functionality in two reactions in the absence and presence of its specific ssDNA. This toehold switch produced 0.56-fold activity of β-galactosidase in the presence of the trigger and so did not exhibit the desired trigger-dependent translation.

4. Conclusion

The experimental data about this part is limited and the composite part was likely not optimized, so further experiments would be necessary to judge this part’s performance. However, based on the modeling and experimental data combined, we suggest that this toehold switch is not likely to function as desired. For this reason, we’d suggest using BBa_K4207012 or one of BBa_K4207014-BBa_K4207017, as they are more likely to detect the BYDV genome.