Difference between revisions of "Part:BBa K5317018"
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Figure 3: Representative microscopy image of HEK293T cells expressing EGFP-PknB and ATF2-mRuby2. Shown are brightfield (left), fluorescence channels for eGFP and mRuby2 (both images in the center) and an overlay of the three channels (right). | Figure 3: Representative microscopy image of HEK293T cells expressing EGFP-PknB and ATF2-mRuby2. Shown are brightfield (left), fluorescence channels for eGFP and mRuby2 (both images in the center) and an overlay of the three channels (right). | ||
− | The co-transfection of the functional EGFP-PknB and ATF2-mRuby2 is shown in figure 3. The expression of both parts was detectable, which are also located in one cell. The EGFP signal, indicating the localization of PknB, was again membrane-closly localized. ATF2-mRuby2 on the other side demostrated a rather nuclear localization. | + | The co-transfection of the functional EGFP-PknB and ATF2-mRuby2 is shown in figure 3. The expression of both parts was detectable, which are also located in one cell. The EGFP signal, indicating the localization of PknB, was again membrane-closly localized. ATF2-mRuby2 on the other side demostrated a rather nuclear-cytoplasmic localization. |
===Stimulation of Co-transfected PknB-EGFP and ATF2-mRuby2 HEK cells with Ampicillin=== | ===Stimulation of Co-transfected PknB-EGFP and ATF2-mRuby2 HEK cells with Ampicillin=== |
Revision as of 15:43, 30 September 2024
CMV-EGFP-PknB
Usage and Biology
PknB is a eukaryote-like serine/threonine kinase in Staphylococcus aureus that plays an important role in the bacterial response to antibiotics, particularly beta-lactams, via its PASTA domain (Stehle et al.,2012). PknB is a membrane-localized protein consisting of an N-terminal cytosolic kinase domain, a central transmembrane segment and three C-terminal extracellular PASTA domains. The PASTA (penicillin-binding protein and serine/threonine kinase-associated) domain plays a critical role in the recognition and binding of beta-lactam antibiotics (Stehle et al.,2012). Upon binding these compounds, the PASTA domain initiates a signaling cascade by inducing autophosphorylation of the N-terminal kinase domain. This activation leads to the initiation of downstream signaling pathways (Cheung et al.,2010). In S. aureus, this mechanism is critical for early detection of antibiotics and helps the bacteria adapt to antibiotic stress (Sauer et al.,2018). We utilized the PknB protein as the beta-lactam detector that passes the signal by phosphorylating one of our three transcription factors ATF2 (K5317016), GraR (K5317015) or CcpA (K5317014).
The composite part includes the upstream positioned constitutive active promoter CMV and the reporter gene EGFP (K3338006) to charactarize the PknB regarding it's cellular localization pre and post antibiotics stimulation.
Cloning
Theoretical Part Design
The CMV promoter was chosen to ensure a constitutive expresssion of the PknB in HEK293T cells and placing the PknB kinase upstream of the reporter gene EGFP allows the visualization of localisation of PknB.
Sequence and Features
- 10INCOMPATIBLE WITH RFC[10]Illegal XbaI site found at 2596
Illegal SpeI site found at 3259
Illegal PstI site found at 2021 - 12INCOMPATIBLE WITH RFC[12]Illegal SpeI site found at 3259
Illegal PstI site found at 2021 - 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 2271
- 23INCOMPATIBLE WITH RFC[23]Illegal XbaI site found at 2596
Illegal SpeI site found at 3259
Illegal PstI site found at 2021 - 25INCOMPATIBLE WITH RFC[25]Illegal XbaI site found at 2596
Illegal SpeI site found at 3259
Illegal PstI site found at 2021 - 1000COMPATIBLE WITH RFC[1000]
Cloning
PknB was synthesized and inserted by NEB HiFi Assembly into the pEGFP-C2 backbone plasmid (K3338020) after its restriction enzyme digestion with SaIHI and BamHI, generating the PknB-eGFP cassette.
Primer name | Sequence |
---|---|
PknB_fw_1 | AGCTTCGAATTCTGCAGAatgataggtaaaataataaatgaacgatataaaattgtagataagcttgg |
PknB_rev_2 | TCAGTTATCTAGATCCGGTGttatacatcatcatagctgacttctttttcagctacag |
Figure 1: Assembled vector map with PknB-EGFP integrated into the pEGFP-C2 backbone.
Characterization
Transfection experiments in mammalian HEK293T cells assessed functionality of our PknB kinase localisation and sensitivity. The composite part carrying plasmid was introduced via transfection to establish cell localisation of PknB before performing co-transfection experiments with the CMV-ATF2-mRuby2 (K5317016) and ATF2-3xCre3xAP1-Promoter_miniCMV_miRFP670 K5317017) varying ampicillin concentration for stimulation. The EGFP fluorescence signal was analyzed for localization by microscopy and intensity by FACS analysis.
Single-transfection experiments
Figure 2: Single-transfected HEK293T cells with the PknB-EGFP-C2 plasmid depicted no EGFP-signal under unstimulated conditions. Scale bar = 20 µm.
As shown in figure 2, EGFP-PknB is correctly expressed in HEK293T cells. As intended, the EGFP-PknB depicts a membrane localized signal indicating a successful codon-optimization and correct implementation of a prokaryotic membrane protein into the eukaryotic cell membrane.
Co-transfection experiments with ATF2
To pass the detected signal intracellularly a transcription factor is neccessary that interacts with the kinase domain of PknB, is activated by phosphorylation and transfers the signal on the level of expression regulation. Therefore, HEK293T cells were double-transfected with CMV-EGFP-PknB-C2 and CMV-ATF2-mRuby2 to analyse possible interactions by their fluorescence signal.
Figure 3: Representative microscopy image of HEK293T cells expressing EGFP-PknB and ATF2-mRuby2. Shown are brightfield (left), fluorescence channels for eGFP and mRuby2 (both images in the center) and an overlay of the three channels (right).
The co-transfection of the functional EGFP-PknB and ATF2-mRuby2 is shown in figure 3. The expression of both parts was detectable, which are also located in one cell. The EGFP signal, indicating the localization of PknB, was again membrane-closly localized. ATF2-mRuby2 on the other side demostrated a rather nuclear-cytoplasmic localization.
Stimulation of Co-transfected PknB-EGFP and ATF2-mRuby2 HEK cells with Ampicillin
Figure 4: The montage double-transfected CMV-PknB-eGFP and CMV-ATF2-mRuby2 in HEK cells with and without ampicillin stimulation in HEK cells with and without ampicillin stimulation.
The co-transfection (Figure 4) shows an image expressing HEK cells of CMV-PknB-eGFP and CMV-ATF2-mRuby2. Shown are brightfield (left), fluorescence channels for eGFP and mRuby2 and an overlay of the three channels with and without coloured signals (right).
References
Pensinger, D. A., Schaenzer, A. J., & Sauer, J. D. (2018). Do Shoot the Messenger: PASTA Kinases as Virulence Determinants and Antibiotic Targets. Trends in microbiology, 26(1), 56–69. https://doi.org/10.1016/j.tim.2017.06.010
Rakette S, Donat S, Ohlsen K, Stehle T (2012) Structural Analysis of Staphylococcus aureus Serine/Threonine Kinase PknB. PLOS ONE 7(6): e39136. https://doi.org/10.1371/journal.pone.0039136
Tamber, S., Schwartzman, J., & Cheung, A. L. (2010). Role of PknB kinase in antibiotic resistance and virulence in community-acquired methicillin-resistant Staphylococcus aureus strain USA300. Infection and immunity, 78(8), 3637–3646. https://doi.org/10.1128/IAI.00296-10