Activity

In order to expand the limited understanding of the genomics of antimicrobial-resistant industrial bacteria, we report the genome sequence of Pluralibacter gergoviae ECO77, a historical contaminant strain of industrial origin. The multireplicon 6.16-Mbp genome of ECO77 consists of a 5.37-Mbp main chromosome, a megaplasmid (605,666 bp), and a large plasmid (182,007 bp). Copyright © 2020 Cunningham-Oakes et al.In this study, the complete genome sequences of Micrococcus luteus strains NCCP 15687 and NCCP 16831 were determined and deposited in the National Culture Collection for Pathogens (NCCP) of South Korea. Genomic DNA was isolated from blood samples from patients infected with M. luteus. Copyright © 2020 Lee et al.Two Gram-negative bacteria with a high G+C content were isolated from soil in undergraduate microbiology classes by enriching for low nutrient growth and neonicotinoid pesticide tolerance. DNA from these isolates was purified and sequenced using a hybrid approach. Here we report the genome sequences of Pseudomonas alkylphenolica strain Neo and Variovorax sp. Selleckchem UNC3866 strain CSUSB. Copyright © 2020 Ne Ville et al.In this study, we report the isolation, identification, characterization, and whole-genome sequence of the endophyte Pantoea sp. strain RIT388, isolated from Distemonanthus benthamianus, a plant known for its antifungal and antibacterial properties that is commonly used for chewing sticks. Copyright © 2020 Gan et al.Adaptive laboratory evolution of Yarrowia lipolytica PO1f in the benchmark ionic liquid (IL; 1-ethyl-3-methylimidazolium acetate) produced a superior IL-tolerant microorganism, strain YlCW001. Here, we report the genome sequences of PO1f and YlCW001 to study the robustness of Y. lipolytica and its potential use as a microbial platform for producing fuels and chemicals.We announce the draft genome sequence of strain B2, which belongs to a potentially new Buttiauxella species, isolated from soil associated with rhizosphere of olivillo trees (Aextoxicon punctatum). Its size is 4,967,099 bp, and its G+C content is 49.1%. The genome of strain B2 carries genes related to rhizobacteria that promote the growth of plants. Copyright © 2020 Almasia et al.Escherichia coli KI683 was isolated from blood of a patient who developed septicemia as a complication of a urinary tract infection. Genome sequencing resulted in three contigs with a total genome size of 5,243,173 bp encoding 5,143 genes. Copyright © 2020 Stefani et al.Avian coronavirus, also known as infectious bronchitis virus, is a highly contagious respiratory pathogen of chickens that is responsible for major economic losses to the poultry industry around the globe. Here, we report the complete genome sequence of strain GA08 of the GI-27 lineage, isolated from a fecal sample from a broiler chicken collected in Georgia in 2015.Here, we report the complete genome sequence of Avian coronavirus strain ArkDPI of the GI-9 lineage, isolated from broiler chickens in North Georgia in 1994. This is the complete genome sequence of this vaccine strain, reisolated from broilers in the United States.The genome of a Weissella confusa strain isolated from a foal with sepsis is reported. Weissella confusa inhabits feces and causes disease in immunocompromised humans and animals. It is important for veterinarians to be aware of the pathogenic ability of these bacteria due to the unknown potential for zoonotic transmission. Copyright © 2020 Little et al.Mycoplasma felis causes conjunctivitis in cats and respiratory diseases in horses. We report here the complete genome assembly of equine Mycoplasma felis strain Myco-2, which was isolated from an ill horse in Japan. Copyright © 2020 Kinoshita et al.PLK4 has emerged as a prime target for cancer therapeutics and its overexpression is frequently observed in various types of human cancer. Recent studies have further revealed an unexpected oncogenic activity of PLK4 in regulating cancer cell migration and invasion. However, the molecular basis behind PLK4’s role in these processes still remains only partly understood. Our previous work demonstrated that an intact CEP85-STIL binding interface is necessary for robust PLK4 activation and centriole duplication. Here we show that CEP85 and STIL are also required for directional cancer cell migration. Mutational and functional analyses reveal that the interactions between CEP85, STIL and PLK4 are essential for effective directional cell motility. Mechanistically, we show that PLK4 can drive the recruitment of CEP85 and STIL at the leading edge of cells to promote protrusive activity, and that downregulation of CEP85 and STIL leads to a reduction in ARP2 phosphorylation and reorganization of the actin cytoskeleton, which in turn impairs cell migration. Collectively, our studies provide molecular insight into the important role of the CEP85-STIL complex in modulating PLK4 driven cancer cell migration. © 2020. Published by The Company of Biologists Ltd.Pluripotent stem cells hold great potential for regenerative medicine. Increased replication and division, such is the case during regeneration, concomitantly increases the risk of adverse outcomes through the acquisition of mutations. Seeking for driving mechanisms of such outcomes, we challenged a pluripotent stem cell system during the tightly controlled regeneration process in the planarian Schmidtea mediterranea Exposure to the genotoxic compound methyl methanesulfonate revealed that despite a similar DNA-damaging effect along the anteroposterior axis of intact animals, stem cell responses differed between anterior and posterior fragments after amputation. Stem cell proliferation and differentiation proceeded successfully in the amputated heads, leading to regeneration of missing tissues. Stem cells in the amputated tails showed decreased proliferation and differentiation capacity. As a result, tails could not regenerate. Interference with the body-axis-associated component β-catenin-1 increased regenerative success in tail fragments by stimulating proliferation at an early time point. Our results suggest that differences in the Wnt-signalling gradient along the body axis modulate stem cell responses to MMS. © 2020. Published by The Company of Biologists Ltd.