Team:NYMU-Taipei/Project-Experiment
Selection markers
Firstly we tested for effective fungal selection marker hph and ble (Corresponding antibiotics: hygromycin and phleomycin)
We made test plates of a series of antibiotic concentration:
Hygromycin (μg/mL): 0, 50, 100, 150, 200
Phleomycin (μg/mL): 0, 25, 50
M. anisopliae were incubated in each of the antibiotics test plates and incubated at 25°C.
Fig.1 Hygromycin test plates ()
Hemolymph bioassays
We extracted insect hemolymph from three different species: oriental fruit flies, cherry cockroaches and silkworms.
Fig.1 Oriental fruit flies
Fig.2 Extracting cherry cockroach's hemolymph
Fig.3 Silkworms
After 24 hours(in cherry cockroach and silkworm's hemolymph) and 30 hours(in oriental fruit fly's hemolymph), the fungal cells were observed under the bright field microscopy(100X).
Fig.4 M.anisopliae in oriental fruit fly's hemolymph for 30 hours
Fig.5 M.anisopliae in cherry coach's hemolymph for 24 hours
Fig.6 M.anisopliae in silkworm's hemolymph for 24 hours
Mcl1 promoter
We designed the primers PMcl1-f(ACGTC//CTGCAG//AATCATGCAGCGCTATGAG, with a PstI site underlined) and PMcl1-r(ATAA//GCGGCCGC//CATGATGGTCTAGGGAACG with a NotI site underlined), according to the PMcl1 sequence[1], to amplify the Mcl1 promoter region with Mcl1 mRNA 5'-untranslated region at the 5' end of the coding region. The whole length is 2772bp.
The gel image below shows that we succeed extracting the Mcl1 promoter and its 5'-untranslated region (99bp downstream the promoter) from the genomic DNA of our chassis organism M. anisopliae ARSEF549.
Fig.7 Amplify PMcl1 from gDNA
Then we digested the DNA fragment with NotI and PstI in order to insert it into the backbone. However, when we ran gel electrophoresis to check the digestion result, we found that there is still one unknown PstI cut site inside the PMcl1 region.
Fig.8 The broken PMcl1 fragment
We decided to sequence this DNA fragment we extracted and mutate the PstI site, but we didn't have enough time to finish our relative vectors construction.
KillerRed expression in M.anisopliae
We constructed a KillerRed expression cassette with a fungal promoter PgpdA and a fungal terminator TtrpC. This cassette was used to confirm that KillerRed can be expressed in M.anisopliae
*The following fluorescence images indicated that KillerRed was successfully expressed in M.anisopliae.
As we observed, the growth situations of M.anisopliae KR transformants on media will not be affected greatly since irradiation of KillerRed localized in cell cytosol has a weak effect on cell survival in eukaryotic cells.
Surely, one should select some ROS-sensitive intracellular localizations, such as mitochondria, plasma membrane, or chromatin to increase efficiency of KillerRed-mediated oxidative stress. The following two ways have been found to be effective for killing the eukaryotic cells using KillerRed: (1) via an apoptotic pathway using KillerRed targeted to mitochondria, and (2) via membrane lipid oxidation using membrane-localized KillerRed[2].
In advance, we decided to fuse a SV40 NLS to the KillerRed protein(BBa_K2040122) so that KillerRed can function in the ROS-sensitive intracellular localizations, the chromatin in nucleus, due to the NLS.
