Part:BBa_K3457003

T7 promoter

T7 promoter of pet-modification vector

Contribution

Group: QHFZ-China iGEM 2020

This part is a basic part. QHFZ-China 2020 measured it in their composite parts, K3457032, K3457033, K3457034, K3457035, K3457036, K3457037, K3457039, K3457042, K3457043.

Contribution from iBowu-China 2021

In iGEM 2021, Team iBowu-China adopted T7 promoter to use in combination with LacO and gusA sequence from E. coli and other sources to express an enzyme β-glucuronidase. In our design, we tested the use of this "short" T7 promoter and noted the difference with a complete T7 promoter [1].

Figure.1. The plasmid constructions used for the expression and measurement of parts.

Figure.2. Differences between the T7 promoter sequence by QHFZ-China-2020 and the T7 promoter sequence by iBowu-China-2020.

In Figure 2, the first promoter sequence is short T7 promoter part on this page, while the second T7 promoter is in full length with four more bases, documented on the respective pages.

Introduction

T7 promoter is a commonly used promoter, which can be recognized by T7 RNA polymerase and efficiently transcribe downstream genes. This year we used this promoter to express sfGFP or β-glucuronidase enzyme in strains such as E. coli BL21 (DE3) to express green fluorescence, or to convert glycyrrhizic acid into glycyrrhetinic acid. We used the T7 promoter part K3457003 established and measured by QHFZ-China 2020, but we found that this element cannot initiate downstream gene expression. Further research found that after adding four bases of GGAA to it, the function returned to normal. In fact we found that pet28a, a commonly used expression vector, has two connected features on its sequence, the T7 promoter and the LacO sequence, and these two sequences actually overlap. Specifically, the overlap is the four GGAAs at the end of the T7 promoter. The bases are also included in the LacO feature. We guess that QHFZ-China 2020 overlooked this problem when splitting these two elements, resulting in the lack of four necessary bases in the T7 promoter designed. In addition, according to the literature [1], we have designed three other promoters, C4, H9 and G6. They can also be activated by T7 RNA polymerase, but the strength is different from that of T7 promoter, so that users can choose the right promoter according to the required expression strength.

References

[1] Jones, J., Vernacchio, V., Lachance, D. et al. ePathOptimize: A Combinatorial Approach for Transcriptional Balancing of Metabolic Pathways. Sci Rep 5, 11301 (2015). https://doi.org/10.1038/srep11301

Sequence and Features