Difference between revisions of "Part:BBa K4162118"

Revision as of 16:19, 11 October 2022

ribozyme+RBS+CDS module: crtEBIY

Introduction

This biobrick was created through overlapping PCR of BBa_K4162009(ribozyme+B0_RBS+crtE), BBa_K4162013(ribozyme+T7_RBS+crtB), BBa_K4162016(ribozyme+T7_RBS+crtI) and BBa_K4162019(ribozyme+T7_RBS+crtY). These genes are a part of the carotenoid biosynthesis pathway and together, this biobrick converts farnesyl pyrophosphate to beta-carotene. In this part, the RNA sequences of hammerhead ribozyme conduct self-cleaving, and the polycistronic mRNA transcript is thus co-transcriptionally converted into individual mono-cistrons in vivo. Self-interaction of the polycistron can be nullified and each cistron can initiate translation with comparable efficiency.

Usage and Biology

We transfected this biobrick into E. coli to build single-cell factory for beta-carotene production. Coding sequences of crtEBIY are separated by ribozyme sequences. In this part, the RBS of crtBIY has equal intensity while the RBS of crtE is significantly stronger than the others. Since crtE catalyzes the first step of the carotenoid reaction chain, the concentration of substrate for the reaction catalyzed by this enzyme is significantly higher than for the next three steps of the reaction. To avoid more serious flux imbalance problems, we boosted the RBS intensity of crtE only in this biobrick and explored whether the carotenoid production of the strain could be significantly enhanced.

Characterization

Agarose gel electrophoresis

Figure 1. T--Fudan--Agarose gel electrophoresis--crtEBIY.png. The first lane was loaded with D2000 DNA ladder whose sizes were marked on the image. We chose Taq DNA polymerase for its low cost and high reliability, and we designed forward and reverse primers for each carotene synthesis enzyme (crt for short). The PCR reaction was composed of 2 μL 10x Taq polymerase buffer, 16 μL H2O, 0.5 μL Taq polymerase, 0.5 μL dNTP (10 mM each), 0.5 μL forward primer (10 mM), 0.5 μL reverse primer (10 mM), and 1 μL bacterial culture or 1μL colony. Using the same forward primer, and different reverse primers, we were able to detect the composition of various crt genes. After PCR, the correct bacterial clones were sent for Sanger sequencing. Once verified, these clones would be used for further experiments. The sequences of primers are: > 5-crtE 5-ATGACGGTCTGCGCAAAAAAAC-3; > rev320crtB 5-CCTTCCAGATGATCAAACGCGTAAG-3; > rev320crtE 5-ATGAGAATGAATGGTAGGGCGTC-3; > rev320crtI 5-GGATTAAACTGCTGAATCTGCGCTTC-3; > rev320crtY 5-CCGCGGTATCCATCCACAAG-3.

Successful product expression

Figures 2 and 3 show that E. coli transfected with this biobrick successfully expressed the target enzyme and yielded beta-carotene.

Figure 2. 96-well plate of module crtEBI BBa_K4162108. All wells had similar lycopene content in the bacterial pellets.

Figure 3. Post-centrifugal sedimentation of the bacterial solution of module crtEBIY.

Sequence and Features