Team:Dundee/fmodal
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Figure 1: LbpA PCR. Lane 1: LbpA PCR Lane 2: 1kb Ladder and Marker. The image shows the gel ran of the LbpA PCR product. The expected size of the fragment was 2832 bp which corresponds to the observed band on the gel.
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Figure 2: LbpA PCR. Lane 1: PCR Product, Lane 2: 1kb Ladder and Marker. The image shows the gel ran of the LbpA PCR product. The expected size of the fragment was 2832 bp which corresponds to the observed band on the gel.
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Figure 3: LbpA PCR for Cloning into pQE80-L. Lane 1: LbpA PCR Product, Lane 2: 1kb Ladder and Marker The image shows the gel ran of the LbpA PCR product. The expected size of the fragment was 2832 bp which corresponds to the observed band on the gel.
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Figure 4: LbpA Culture Samples. Lane 1: Sample from uninduced culture. Lane 2: Sample from culture induced with 1mM IPTG. It seems that on comparison of the two cultures, that inducing expression of LbpA causes the cells to die given the significant reduction of protein levels visible on the gel.
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Figure 5: OD600 Readings from Uninduced Culture and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG). The table shows that after being induced with IPTG the cultures stop growing since their OD600 readings are notably lower than that of the uninduced control.
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Figure 6: Growth Curve of Uninduced and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG) The graph shows that on comparison with the uninduced control, the induced cultures stop growing when LbpA expression is induced. After ~7 hours, it is possible that the emergence of mutants causes the the OD to rise again or the cells have adapted to the production of the foreign protein.
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Figure 7: Growth Curve of Uninduced and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG) The graph shows that on comparison with the uninduced control, after reaching an OD600 of 0.6, the induced cultures stop growing when LbpA starts to be expressed. Similar to the previous growth curve assay, after ~7 hours, it is possible that the emergence of mutants causes the the OD to rise again or the cells have dealt with the production of the foreign protein.
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Figure 8: SDS Gel of Samples Taken from Uninduced Control and 1 mM IPTG Induced Culture 6 hours After Induction For the induced culture, a faint band just above the 100 kDa marker is observable on the gel which corresponds to the expected size of LbpA.
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Figure 1: Gel of SBP PCR Product for Cloning into pQE80-L. Lane 1: SBP PCR Product 1 Lane 2: 1kb Ladder and Marker Lane 3: SBP PCR Product 2 Both bands observable on the gel correspond to the expected size of SBP which is ~600 bp.
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Figure 2: SDS Gel of Uninduced and 1 mM IPTG Induced Cultures of PotD and SBP. For PotD, it is clear from the gel that it is being successfully overexpressed since there is an intense band present at the 37 kDa marker which corresponds to the expected size of PotD in the induced culture sample. For SBP, there is no band present which suggests SBP is being overexpressed.
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Figure 3: Characterisation of PotD. Single colonies of MC1061 E.coli containing pQE80-L encoding PotD were used to inoculate 5ml of fresh LB growth medium supplemented with ampicillin. Once cultures reached an OD600 of 0.6, one was induced with 1 mM IPTG and one was left uninduced as a control. They were left to grow for a further three hours, after which a 1ml sample was taken and the cells pelleted. The cells were resuspended in 100µl of Laemmli buffer, 20µl of which was separated by SDS-PAGE and transferred to a nitrocellulose membrane and probed with an anti-His antibody.
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Figure 4: SDS Gel of Uninduced and 0.5mM, 1mM and 2mM IPTG Induced Cultures of SBP. It appears that upon induction of SBP with any concentration of IPTG the cells are dying given that there is a significant drop in protein levels observable on the gel.
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Figure 5: Growth Curve of Uninduced and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG) The graph shows that on comparison with the uninduced control, the induced cultures stop growing when SBP expression is induced. After ~7 hours, it is possible that the emergence of mutants causes the the OD to rise again or the cells have adapted to the production of the foreign protein.
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Figure 6: Growth Curve of Uninduced and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG) The graph shows that on comparison with the uninduced control, after reaching an OD600 of 0.6, the induced cultures stop growing when SBP starts to be expressed. Similar to the previous growth curve assay, after ~7 hours, it is possible that the emergence of mutants causes the the OD to rise again or the cells have adapted to the production of the foreign protein.
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Figure 7: SDS-PAGE of Fractions Obtained After Size Exclusion Chromatography of PotD 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100 V. The two bands observable on the gel correspond to the expected size of PotD of 38 kDa. Western Blotting will confirm if these proteins are PotD.
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Figure 8: Characterisation of PotD following Purification. 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. It was then transferred to a nitrocellulose membrane and probed with an anti-His antibody.
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Figure 9: Characterisation of SBP following Purification. 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. It was then transferred to a nitrocellulose membrane and probed with an anti-His antibody.
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Figure 1: pSB1C3-hHBA and pSB1C3-hHBB (respectively) Pre-Sequencing Digest pSB1C3-hHBA and pSB1C3-hHBB minipreps were digested with EcoRI and PstI to check for presence of each insert. The bands observable on the gel correspond to the expected sizes for the pSB1C3 vector and both inserts.
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Figure 2: Amplification of hHBA and hHBB hHBA and hHBB were amplified from the pSB1c3-hHBA and pSB1c3-hHBB minipreps obtained yesterday using primers to allow cloning of the genes into pT25 and pUT18 respectively. Although the band is fainter in the case of hHBA, the gel indicates the PCR has been successful.
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Figure 3: Amplification of hHBA hHBA was amplified from the pSB1C3-hHBA using primers to allow cloning of the genes into pT25. The gel indicates that the PCR has been successful.
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Figure 4: Amplification of hHBA and hHBB hHBA and hHBB were amplified from the pSB1c3-hHBA and pSB1C3-hHBB minipreps using primers to allow cloning of the genes into pQE80-L. The gel indicates that the PCR has been successful.
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Figure 5: Pre-Sequence Digest of pQE80-L-hHBA and pQE80-L-hHBB Both pQE80-L-hHBA and pQE80-L-hHBB minipreps were digested with BamHI and KpnI to check for the presence of the inserts. The gel indicates that both inserts have been successfully cloned into pQE80-L.
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Overexpression of hHBB and hHBA. Single colonies of M15[pREP4] E.coli containing pQE80-L encoding hHBB and pQE80-L encoding hHBA were used to inoculate 5ml of fresh LB growth medium supplemented with ampicillin and kanamycin. Once cultures reached an OD600 of 0.6, they were induced with a range of IPTG concentrations. They were left to grow for a further three hours, after which a 1 ml sample was taken and the cells pelleted. The cells were resuspended in 100 µl of 2x Laemmli buffer, 20 µl of which was separated by SDS-PAGE.
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Figure 7: Characterisation of hHBB. Single colonies of M15[pREP4] E.coli containing pQE80-L encoding hHBB were used to inoculate 5 ml of fresh LB growth medium supplemented with ampicillin and kanamycin. Once cultures reached an OD600 of 0.6, they were induced with a range of IPTG concentrations. They were left to grow for a further three hours, after which a 1 ml sample was taken and the cells pelleted. The cells were resuspended in 100 µl of Laemmli buffer, 20 µl of which was separated by SDS-PAGE. The cells were resuspended in 100 µl of Laemmli buffer, 20 µl of which was separated by SDS-PAGE and transferred to a nitrocellulose membrane and probed with an anti-His antibody.
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Figure 8: Amplification of hHBN for Cloning into pQE80-L PCR product from amplification of hHBN from IDT plasmid using primers for cloninig into pQE80-L. The gel indicates hHBN has been amplified successfully since the observed band corresponds to the expected size of 1200 bp.
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Figure 9: SDS-PAGE of Fractions Obtained After Size Exclusion Chromatography of hHBB 10 µl of each fraction was mixed with 10 µl of laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. The four bands observable on the gel correspond to the expected size of PotD of 16 kDa. Western Blotting will confirm if these proteins are hHBB.
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Figure 10: Characterisation of hHBB following Purification. 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. It was then transferred to a nitrocellulose membrane and probed with an anti-His antibody.
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Figure 11: Amplification of hHBN for Cloning into pT25 PCR product from amplification of hHBN from IDT plasmid using primers for cloninig into pT25. The gel indicates hHBN has been amplified successfully since the observed band corresponds to the expected size of 1200 bp.
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Figure 14: Characterisation of hHBN following Purification. 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. It was then transferred to a nitrocellulose membrane and probed with an anti-His antibody.
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