Characterization of a Gene Conferring Red Fluorescence Isolated from an Environmental DNA Library Constructed from Soil Bacteria

Engineering uroporphyrinogen III methyltransferase as a red fluorescent reporter in E. coli

Uroporphyrinogen III methyltransferase (UMT) is a novel reporter owing to the catalytic products in the cells that emit strong red fluorescence under UV light. Here, we engineered the gene encoding the functional barley UMT (bUMT) by error-prone PCR and broadened the application UMT as a red fluorescent reporter in Escherichia coli. A variant, termed mbUMT, was selected and emitted stronger cell fluorescence than the wild type bUMT expressed in different E. coli strains, under different promoters and induction conditions respectively. The constructed mbUMT with a C-terminal ssrA tag was degraded in cells by the protease ClpXP encoded by E. coli chromosome, whereas the bUMT was expressed as active aggregates. Before they are exported to the periplasm, both proteins catalyze the substrate in the cytoplasm and emit cell fluorescence. The results suggested that the evolved bUMT is a better candidate to monitor in vivo degradation by E. coli ClpXP.

Novel antibacterial proteins from the microbial communities associated with the sponge Cymbastela concentrica and the green alga Ulva australis

The functional metagenomic screening of the microbial communities associated with a temperate marine sponge and a green alga identified three novel hydrolytic enzymes with antibacterial activities. The results suggest that uncultured alpha- and gammaproteobacteria contain new classes of proteins that may be a source of antibacterial agents.

Agrobacterium tumefaciens-mediated transformation of the vegetative dikaryotic mycelium of the cultivated mushroom Flammulina velutipes

Agrobacterium tumefaciens was used to transform the vegetative dikaryotic mycelium of Flammulina velutipes using a hygromycin B resistance gene as selectable marker. The gene coding for urogen III methyltransferase (cob) was introduced into F. velutipes dikaryotic cells. The resulting transformant cells generated a bright red fluorescence, indicating that cob is promising as a reporter gene in F. velutipes.