Difference between revisions of "Part:BBa K3740044"
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[[File:szpt43.png|400px|thumb|center|Figure 1. Gene circuit of pDawn-RBSNNN-X174 E-rrnB T1.]] | [[File:szpt43.png|400px|thumb|center|Figure 1. Gene circuit of pDawn-RBSNNN-X174 E-rrnB T1.]] | ||
<h3>Characterization</h3> | <h3>Characterization</h3> | ||
− | <h4>1. Batch screening of pSEVA331-pDawn-RBSNNN-X174 E-rrnB T1 | + | <h4>1. Batch screening of pSEVA331-pDawn-RBSNNN-X174 E-rrnB T1 in response to blue light lysis in <i>E. coli</i>.</h4> |
<p>Method: We use the random primer method to modulate the strength of the RBS (<partinfo>BBa_B0034</partinfo>) located upstream of X174 E. After introducing into <i>E. coli</i> DH5α, a drop plate assay was performed to screen the bacterial isolate that can grow normally in the dark but cannot under the blue light irradiation.</p> | <p>Method: We use the random primer method to modulate the strength of the RBS (<partinfo>BBa_B0034</partinfo>) located upstream of X174 E. After introducing into <i>E. coli</i> DH5α, a drop plate assay was performed to screen the bacterial isolate that can grow normally in the dark but cannot under the blue light irradiation.</p> | ||
<br> | <br> | ||
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=2022 SZPT-China= | =2022 SZPT-China= | ||
<h3>Characterization</h3> | <h3>Characterization</h3> | ||
− | <h4>1.Batch screening of pSEVA331-pDawn-RBSNNN-X174 E-rrnB T1 | + | <h4>1.Batch screening of pSEVA331-pDawn-RBSNNN-X174 E-rrnB T1 in response to blue light lysis in <i>E. coli</i> TOP10.</h4> |
− | <p>We performed a new round of phenotyping assay for pDawn-RBSNNN-X174E-rrnB T1 | + | <p>We performed a new round of phenotyping assay for pDawn-RBSNNN-X174E-rrnB T1. First, the monoclonal transformants of <i>E. coli</i> TOP10 with pDawn-RBSNNN-X174E-rrnB T1 was picked and grown on two parallel new LB plates, with one cultured in the dark and the other under blue light respectively to screen for correct builds. As shown in Figure 1,pSEVA331-pDawn-RBSNNN-X174E-rrnB T1 had a total of 10 strains respectively in which the genetic construct works as intended. This suggests that the lysis protein X174E can be successfully expressed in the <i>E. coli</i> TOP10 under our designed illumination conditions.</p> |
− | [[File:K3740044 Figure 1 | + | |
− | .]] | + | [[File:K3740044 Figure 1 new.png|600px|thumb|center|Figure 1: <p></p>(a) Colony growth of <i>E. coli</i> TOP10 containing pDawn-RBSNNN-X174E-rrnB T1 in the dark.<P></P> |
+ | (b) Colony growth of <i>E. coli</i> TOP10 containing pDawn-RBSNNN-X174E-rrnB T1 under blue light.]] | ||
+ | |||
<br> | <br> | ||
− | <p>From the | + | <p>From the above successul recombinant candidates(red squares in Figure 1), we selected bacterial strains that can gwplyse under blue light, launched two copies of bacterial liquid culture with agitation under either light or dark condition and measured the OD <sub>600</sub> values. As shown in Figure 2, we found that the lysis protein can accumulate with time, and the bacteria began to be lysed at 3 or 4 hours post inoculation, since the OD<sub>600</sub> value decreased, suggesting that the lysis protein reaches the lethal concentration at this time point..</p> |
− | + | ||
− | [[File: | + | [[File:K3740044 Figure 2.png|600px|thumb|center|Figure 2: <p></p>(a) Growth curve of <i>E. coli</i> TOP10 containing pSEVA331-pDawn-RBSNNN-X174E-rrnB T1 #1<p></p> |
+ | (b) Growth curve of <i>E. coli</i> TOP10 containing pSEVA331-pDawn-RBSNNN-X174E-rrnB T1 #11]] |
Latest revision as of 13:50, 9 October 2022
pDawn-B0034-X174 E-rrnB T1
Description
This composite part is a generator consisting of the pDawn promoter and X174 E.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 2171
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 63
Illegal NgoMIV site found at 195
Illegal NgoMIV site found at 289
Illegal NgoMIV site found at 582
Illegal NgoMIV site found at 1076
Illegal NgoMIV site found at 1094
Illegal NgoMIV site found at 1184
Illegal AgeI site found at 414
Illegal AgeI site found at 1542 - 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI site found at 1643
Illegal BsaI.rc site found at 525
2021 SZPT-China
Biology
This composite part is a generator consisting of the pDawn (BBa_K1075044) promoter and X174 E (BBa_K1835500).
Usage
The target genes of pDawn blue light response system (BBa_K1075044) and X174 E (BBa_K1835500) were inserted into the pSEVA331 expression vector. Then, random primer guided mutagenesis method to modulate the strength of the RBS (BBa_B0034) located upstream of X174 E. Finally, the pDawn-RBSNNN-X174 E-rrnB T1 (BBa_K3740044) plasmid was constructed and introduced into E. coli. E. coli isolates that grow normally in the dark and cannot grow under blue light were screened out. Finally, the plasmid was extracted, and further introduced into G. hansenii ATCC 53582, in which the responsiveness of pDawn to blue light was also verified.
Characterization
1. Batch screening of pSEVA331-pDawn-RBSNNN-X174 E-rrnB T1 in response to blue light lysis in E. coli.
Method: We use the random primer method to modulate the strength of the RBS (BBa_B0034) located upstream of X174 E. After introducing into E. coli DH5α, a drop plate assay was performed to screen the bacterial isolate that can grow normally in the dark but cannot under the blue light irradiation.
As shown in Figure 2, the 4th isolate that grew normally in the dark but did not under blue light, indicating that we successfully expressed the cleavage protein X174 E in E. coli.
2. pDawn-RBSNNN-X174 E-rrnB T1-pSEVA331-7# in response to blue phptolysis in G. hansenii ATCC 53582
Method: We launched the liquid culture of pDawn-RBSNNN-X174 E-rrnB T1-pSEVA331-DH5α, extracted the plasmid and introduced into G. hansenii ATCC 53582. After 2 days of incubation, we selected 20 monoclonal to spot on two parallel new plates, which were incubated for another 2 days, with one under blue light and the other in the dark. The strains with obvious growth difference under different illumination conditions were preserved. The drop plate assay using this strain was repeated to verify the lysis effect of X174 E on G. hansenii ATCC 53582.
As shown in Figure 3 (a), G. hansenii ATCC 53582 strains under the dark condition exhibited better growth than those under blue light irradiation; (b) pDawn-RBSNNN-X174 E-rrnB T1-pSEVA331-G. hansenii ATCC 53582-7# showed a stable lysis effect under blue light illumination but not in the dark, indicating that we successfully expressed the cleavage protein X174E in G. hansenii ATCC 53582.
References
[1] Witte A, Wanner G, Sulzner M, et al. Dynamics of PhiX174 protein E-mediated lysis of Escherichia coli[J]. Archives of Microbiology, 1992, 157(4):381-388.
Phi X 147 E Lysis Gene: BBa_K1835500
2022 SZPT-China
Characterization
1.Batch screening of pSEVA331-pDawn-RBSNNN-X174 E-rrnB T1 in response to blue light lysis in E. coli TOP10.
We performed a new round of phenotyping assay for pDawn-RBSNNN-X174E-rrnB T1. First, the monoclonal transformants of E. coli TOP10 with pDawn-RBSNNN-X174E-rrnB T1 was picked and grown on two parallel new LB plates, with one cultured in the dark and the other under blue light respectively to screen for correct builds. As shown in Figure 1,pSEVA331-pDawn-RBSNNN-X174E-rrnB T1 had a total of 10 strains respectively in which the genetic construct works as intended. This suggests that the lysis protein X174E can be successfully expressed in the E. coli TOP10 under our designed illumination conditions.
From the above successul recombinant candidates(red squares in Figure 1), we selected bacterial strains that can gwplyse under blue light, launched two copies of bacterial liquid culture with agitation under either light or dark condition and measured the OD 600 values. As shown in Figure 2, we found that the lysis protein can accumulate with time, and the bacteria began to be lysed at 3 or 4 hours post inoculation, since the OD600 value decreased, suggesting that the lysis protein reaches the lethal concentration at this time point..