Leptolyngbya boryana (L. boryana) (formerly Plectonema boryanum) is a versatile, filamentous cyanobacterium that has the ability to fix nitrogen under microoxic conditions and to grow heterotrophically with glucose in the dark, providing an excellent system to investigate photosynthesis, nitrogen fixation, and their regulatory mechanisms. While L. boryana is not naturally transformable different from the unicellular cyanobacterium Synechocystis sp. PCC 6803, it can be transformed by electroporation. Here we describe the transformation of L.boryana by electroporation to isolate mutants in which a targeted gene is disrupted.
Materials and Reagents1. Bottle top filter system (0.22 µm) (Corning, catalog number: 430624) 2. Microcentrifuge tubes (1.5 ml) (Ina-optika corporation, BIO-BIK, catalog number: ST-0150F) or its equivalent, sterilized by autoclave (121 ºC, 20 min) 3. Micropipettes tips (121 ºC, 20 min) 4. Sterile syringe filter (Millex-GV Syringe Filter Unit, 0.22 µm), used for filter sterilization of solutions of antibiotics and glucose (Thermo Fisher Scientific, Millipore, catalog number: SLGV033RV) or its equivalent 5. Petri dish [sterile Petri dishes (90 mm x 15 mm)] (ASONE Corporation, catalog number: 1-7484-01-30) or its equivalent 6. Pulse cuvettes (Gene Pulser cuvette, 0.1 cm) (Bio-Rad Laboratories, AbD Serotec ® , catalog number: 1652089) 7. Hybond N+ filter (disc 82 mm diameter) (GE Healthcare, Amersham, catalog number: RPN82B), sterilized by autoclave (121 ºC, 20 min). 8. Leptolyngbya boryana (wild type or dg5) (grown on a BG-11 agar plate supplemented with 20 mM HEPES-KOH, pH 7.5 and 30 mM glucose)Note: The dg5 strain was isolated from the wild type as a natural mutant that grows much faster heterotrophically in the dark than wild type (Fujita et al., 1996). Recently we identified that the mutation responsible for the dg5 phenotype is one adenine insertion causing a frameshift in the cytM gene encoding cytochrome cM (Hiraide et al., 2015).
