Part:BBa_K1906005

Beta-subunit of Qbeta replicase holoenzyme

This protein is the beta subunit of Qbeta replicase.

Characterlization

It was quite surprising that plasmids contain this CDS part don't lead to a heavy production of the protein upon the induction. However, this situation can be improved when EF-Ts and EF-Tu are co-expressed with beta subunit.

Figure 1 is the SDS-PAGE result comparison between cells that were transformed with these three proteins and beta subunit alone.

Figure 1. SDS-PAGE result comparison between three-protein-expressing cells and beta subunit-expressing cells. Wild-type cells were included as a control group. The gel on the left shows the results of cells that had been induced with 2mM IPTG and the gel on the right shows the results of same groups of cells that had not been induced. The blue arrow indicates the band position of beta subunit.

It can be clearly seen that cells transformed with beta subunit alone had no detectable level of protein expression. However, the expression of beta subunit can be greatly restored when plasmids that carry EF-Tu and EF-Ts are transformed into the cells.

However, these results may be further enhanced with the use of a fusion protein design that combines the Qbeta subunit directly in complex with the Ef-Tu and EF-Ts cofactors, as in Part:BBa_K3258018.

When running an SDS-PAGE gel to compare protein expression between the expression of a Qbeta subunit alone versus the expression of the fully linked complex inside E. coli, it can clearly be seen that expression increases significantly with the new part, Part:BBa_K3258018. With cell free lysate the results are inconclusive, potentially a result of the lack of capacity within simple cell free systems for large protein expression, or simply a result of lower activity levels. In either case, more work is needed.

The functionality and operation of the MDV-Qbeta-Spinach construct (Part:BBa_K3258017) was tested in Sigma 70 myTXTL Cell Free Cell Lysate. Initial tests were conducted comparing fluorescent output from another construct, mRFP-Spinach, with the fluorescent output of MDV-Qbeta-Spinach. Trials were conducted running reactions with each construct at the same time at 29 degrees Celsius for 18 hours and measuring fluorescent output. Results showed significant differences in fluorescent output between MDV-Qbeta-Spinach and mRFP-Spinach, suggesting that MDV-Qbeta-Spinach was operational in vitro in the used cell free lysate.

The importance of MDV regions to replication by the Qbeta subunit for in vitro has also been characterized.

After confirming the functionality of the MDV-Qbeta-Spinach construct with in vitro experimentation, the impact of the MDV regions was tested. Each MDV region (BBa_K3258015 and BBa_K3258016), or midivariant region, is a RNA sequence experimentally classified in previous literature to be a good substrate for Qbeta binding and replication. Flanking a given gene of interest, especially Qbeta, with the midivariants should make the whole sequence more conducive to replication and amplification by Qbeta. This was tested by comparing the fluorescent output of the MDV-Qbeta-Spinach construct in vitro with trials of a Qbeta-Spinach only construct, which lacked the MDV flanking regions. Run in triplicate, the results suggested a clear improvement of the MDV flanked Qbeta-Spinach over the control Qbeta-Spinach only, with no trial of the MDV-Qbeta-Spinach dipping below the highest performing trial of the Qbeta-Spinach. The differences in amplification of each construct suggested a ~30% improvement in the amplification rate with the MDV flanked construct versus the non-MDV flanked construct.

Usage and Biology

Qbeta replicase is a RNA dependent RNA transcriptase that produces sense strands from antisense strands of RNA. It commonly is found in a complex along with E. coli expression factors EF-Ts and EF-Tu, as well as with the s1 ribosomal subunit. Widely studied because of its properties and its connection to the RNA world hypothesis as an RNA dependent only system capable of self replication, it is also the central protein in the DiCE directed evolution method.

Sequence and Features