J23100-B0034-bphS-pET RBS-bphO-rrnB T1

Description

Near-infrared light (NIR light) activated synthesis of c-di-GMP in Gluconacetobacter hansenii ATCC 53582 and synthesis of c-di-GMP.

Sequence and Features

2021 SZPT-China

Biology

This is a combination of bphS (BBa_K3740019) and bphO (BBa_K3740001) to form a generator that is used to regulate the level of c-di-GMP.

Usage

The encoding sequences for BphS and BphO were inserted into the expression vector with BBa_K880005 (BBa_J23100& BBa_B0034) to obtain J23100-B0034-bphS-pET RBS-bphO-rrnB T1 (BBa_K3740047). We introduced the constructed plasmid into E. coli DH5α to verify its successful construction, and then transferred it into G. hansenii ATCC 53582 to verify its function.

Figure 2. Gene circuit of J23100-B0034-bphS-pET RBS-bphO-rrnB T1

Characterization

1. Identification

As shown in Figure 3, composite part BBa_K3740047 was identified successfully by PCR amplification.

Figure 3. Agarose gel electrophoresis image of J23100-B0034-bphS-pET RBS-bphO-rrnB T1. BBa_K3740047, 2782bp

2. Characterization

As shown in Figure 4, J23100-bphS-pET RBS-bphO-rrnB T1-pSEVA331-G. hansenii ATCC 53582, produced a higher level of BC film under NIR light than that under dark conditions, indicating that BphS in G. hansenii ATCC 53582 can synthesize c-di-GMP.

Figure 4. BC yield by J23100-bphS-pET RBS-bphO-rrnB T1-pSEVA331-G. hansenii ATCC 53582 under NIR light illumination and dark conditions.

References

[1] Min-Hyung, Gomelsky, Mark. Near-infrared Light Responsive Synthetic c-di-GMP Module for Optogenetic Applications.