Difference between revisions of "Part:BBa K562009:Experience"
Franksargent (Talk | contribs) (→Results) |
Franksargent (Talk | contribs) (→User Reviews) |
||
Line 16: | Line 16: | ||
|width='60%' valign='top'| | |width='60%' valign='top'| | ||
− | This part was seen work in practice. Synthesis of the seven encoded polypeptides in very small scale cultures (1 ml) was observed by 35-S-Methionine labelling (Figure 1) and the proteins could also be purified from large scale cultures (5 litre) and visualised by Coomassie-style staining of SDS-PAGE gels (Figure 2). | + | This part was seen work in practice. Synthesis of the seven encoded polypeptides in very small scale cultures (1 ml) was observed by 35-S-Methionine labelling (Figure 1) and the proteins could also be purified from large scale cultures (5 litre) and visualised by Coomassie-style staining of SDS-PAGE gels (Figure 2). GFP was detected inside the purified complex of microcompartment proteins be Western immunoblotting (Figure 3). |
|} | |} | ||
; | ; |
Revision as of 12:43, 1 October 2011
This experience page is provided so that any user may enter their experience using this part.
Please enter
how you used this part and how it worked out.
Applications of BBa_K562009
User Reviews
UNIQ0b4643a189d76161-partinfo-00000000-QINU
•••••
iGEM Dundee 2011 |
This part was seen work in practice. Synthesis of the seven encoded polypeptides in very small scale cultures (1 ml) was observed by 35-S-Methionine labelling (Figure 1) and the proteins could also be purified from large scale cultures (5 litre) and visualised by Coomassie-style staining of SDS-PAGE gels (Figure 2). GFP was detected inside the purified complex of microcompartment proteins be Western immunoblotting (Figure 3). |
Results
E. coli was transformed with BBa_K562009 expressed from pT7.5, and the plasmid pGP1-2 encoding T7 polymerase, and grown aerobically for 3 hours in LB medium. T7 polymerase synthesis was induced by heat shock before all native transcription in E. coli was halted by the addition of rifampicin. 10 minutes later 1 ml of cells was then collected and spiked with 35-S-labelled Methionine. Following a 10 minute incubation the cell pellet was harvested and resuspended in Laemmli disaggregation buffer. Protein labelling was analysed by SDS-PAGE and autoradiography.
This very small scale and sensitive technique reveals all polypeptides being expressed from the plasmid.
- Figure 1: Transcription and translation of gene products produced from BBa_K562009. Radiolabelled revealed bands of the corresponding sizes to the PduA, PduJ, PduK, PduN, PduT and PduU proteins. PduB can be expressed as a smaller PduB' variant from an alternative translation start site. The RED ARROW points to the lane producing polypeptides from BBa_K562009.
E. coli was transformed with BBa_K562009 and BBa_K562013 and grown anaerobically for 16 hours in LB medium containing 0.4% (w/v) glucose. Cells were harvested, washed and broken in 50 mls B-PER solution before being loaded onto an IMAC column. Bound proteins were eluted with an imidazole gradient and analysed by SDS-PAGE.
Fractions contained all the components of the synthetic microcompartment. The bands shown were positively identified by tryptic peptide mass fingerprinting. In addition, the co-expressed GFP was also identified around 26 kDa. Note that the banding pattern changed depending on whether the sample was boiled. In unboiled samples the PduB protein (which is produced as full-lenth PduB and truncated PduB') remains in an oligomeric state and appears larger than expected on the gel.
- Figure 2: Isolation of a synthetic bacterial microcompartment by metal affinity chromatography. Each of PduB, PduU, PduN, and PduK carry hexa-histidine tags. PduA, PduT, and PduJ are not tagged.
UNIQ0b4643a189d76161-partinfo-00000006-QINU