Efficient disruption of CmHk1 using CRISPR/Cas9 ribonucleoprotein delivery in Cordyceps militaris.

Cordyceps militaris, an entomopathogenic ascomycete, produces edible medicinal mushrooms known to have medicinal and therapeutic functions. To develop the genetic transformation system in C. militaris, green fluorescent protein (GFP) mutants of C. militaris were generated by PEG-mediated protoplast transformation. The CRISPR/Cas9 ribonucleoprotein (RNP) targeting the class III histidine kinase of C. militaris (CmHk1) was then delivered into protoplasts of C. militaris through the transformation system. Mutations induced by the RNP in selected mutants were detected: 1 nt deletion (6 mutants), 3 nt deletion with substitution of 1 nt (1 mutant), insertion of 85 nts (1 mutant), 41 nts (2 mutants), and 35 nts (5 mutants). An in vitro sensitivity assay of the mutants indicated that knockout of CmHk1 reduced sensitivity to two fungicides, iprodione and fludioxonil, but increased sensitivity to osmotic stresses compared to the wild type. Summing up, the CRISPR/Cas9 RNP delivery system was successfully developed, and our results revealed that CmHk1 was involved in the fungicide resistance and osmotic stress in C. militaris.

Biocontrol of the causal brown patch pathogen Rhizoctonia solani by Bacillus velezensis GH1-13 and development of a bacterial strain specific detection method.

Brown patch caused by the basidiomycete fungus Rhizoctonia solani is an economically important disease of cool-season turfgrasses. In order to manage the disease, different types of fungicides have been applied, but the negative impact of fungicides on the environment continues to rise. In this study, the beneficial bacteria Bacillus velezensis GH1-13 was characterized as a potential biocontrol agent to manage brown patch disease. The strain GH1-13 strongly inhibited the mycelial growth of turf pathogens including different anastomosis groups of R. solani causing brown patch and large patch. R. solani AG2-2(IIIB) hyphae were morphologically changed, and fungal cell death resulted from exposure to the strain GH1-13. In addition, the compatibility of fungicides with the bacterial strain, and the combined application of fungicide azoxystrobin and the strain in brown patch control on creeping bentgrass indicated that the strain could serve as a biocontrol agent. To develop strain-specific detection method, two unique genes from chromosome and plasmid of GH1-13 were found using pan-genome analysis of 364 Bacillus strains. The unique gene from chromosome was successfully detected using both SYBR Green and TaqMan qPCR methods in bacterial DNA or soil DNA samples. This study suggests that application of GH1-13 offers an environmentally friendly approach via reducing fungicide application rates. Furthermore, the developed pipeline of strain-specific detection method could be a useful tool for detecting and studying the dynamics of specific biocontrol agents.

BL-11C Micro-MX: a high-flux microfocus macromolecular-crystallography beamline for micrometre-sized protein crystals at Pohang Light Source II.

BL-11C, a new protein crystallography beamline, is an in-vacuum undulator-based microfocus beamline used for macromolecular crystallography at the Pohang Accelerator Laboratory and it was made available to users in June 2017. The beamline is energy tunable in the range 5.0-20 keV to support conventional single- and multi-wavelength anomalous-dispersion experiments against a wide range of heavy metals. At the standard working energy of 12.659 keV, the monochromated beam is focused to 4.1 µm (V) × 8.5 µm (H) full width at half-maximum at the sample position and the measured photon flux is 1.3 × 1012 photons s-1. The experimental station is equipped with a Pilatus3 6M detector, a micro-diffractometer (MD2S) incorporating a multi-axis goniometer, and a robotic sample exchanger (CATS) with a dewar capacity of 90 samples. This beamline is suitable for structural determination of weakly diffracting crystalline substances, such as biomaterials, including protein, nucleic acids and their complexes. In addition, serial crystallography experiments for determining crystal structures at room temperature are possible. Herein, the current beamline characteristics, technical information for users and some recent scientific highlights are described.