Project description:Biofilm clogging water pumps in ice machines

Project description:Greenland Ice Sheet supraglacial habitats: ice, cryoconite, biofilm, snow Genome sequencing and assembly

Project description:The study is about the role of Bacteroides thetaiotaomicron in the human gut microbiota, specifically its ability to form biofilms in response to bile salts. The study found that bile induces the expression of certain efflux pumps, and inhibiting these pumps impairs biofilm formation. Among the induced pumps, the BipABC pump is crucial for biofilm formation as it is involved in the efflux of magnesium, which affects the biofilm's extracellular matrix and structure. This discovery sheds light on how intestinal chemical cues, like bile salts, regulate biofilm formation in B. thetaiotaomicron, a significant gut symbiont.

Project description:Washing machines Raw sequence reads

Project description:Pseudomonas aeruginosa is an opportunistic human pathogen, which is ubiquitous in the environment. The environmental versatility of P. aeruginosa is often attributed to a large arsenal of active efflux pumps, low permeability of the outer membrane and extensive regulatory networks. In this study, we analyzed putative functional interplay between polyspecific drug efflux pumps of Resistance-Nodulation-Division (RND) superfamily of proteins and GacSA two-component regulatory system. RND transporters are the major contributors to antibiotic resistance and survival under various environmental stresses, whereas GacSA is a global regulator and governs critical lifestyles during human colonization. We found that the inactivation of either RND pumps or gacS induces broad, partially overlapping responses in lifestyle, virulence and metabolic programs that are more pronounced during exponential than stationary phase. GacSA and RND efflux pumps induced opposite responses in gene expression of P. aeruginosa, whereas the overexpression of GacS was additive with the deletion of efflux pumps in gene expression and under growth conditions typically associated with human infections such as elevated temperature and iron deprivation. We conclude that RND efflux and GacSA networks partially overlap with each other.

Project description:Biofilms are ubiquitous in natural, medical, and engineering environments. While most antibiotics that primarily aim to inhibit cell growth may result in bacterial drug resistance, biofilm inhibitors do not affect cell growth and there is less chance of developing resistance. This work sought to identify novel, non-toxic and potent biofilm inhibitors from Streptomyces bacteria for reducing the biofilm formation of Pseudomonas aeruginosa PAO1. Out of 4300 Streptomyces strains, one species produced and secreted peptide(s) to inhibit P. aeruginosa biofilm formation by 93% without affecting the growth of planktonic cells. Global transcriptome analyses (DNA microarray) revealed that the supernatant of the Streptomyces 230 strain induced phenazine, pyoverdine, and pyochelin synthesis genes. Electron microscopy showed that the supernatant of Streptomyces 230 strain reduced the production of polymeric matrix in P. aeruginosa biofilm cells, while the Streptomyces species enhanced swarming motility of P. aeruginosa. Therefore, current study suggests that Streptomyces bacteria are an important resource of biofilm inhibitors as well as antibiotics. For the microarray experiments, P. aeruginosa were inoculated in 25 0ml of LB medium in 1000 ml shake flasks with overnight cultures that were diluted 1:100. Streptomyces 230 strain culture media was added in at 1% . Cells were cultured with 10g of glass wool in LB at 37M-BM-0C with 100 rpm shaking for 7 hrs. Cells were immediately chilled with dry ice and 95% ethanol (to prevent RNA degradation) for 30 sec before centrifugation in 50 ml centrifuge tubes at 13,000 g for 2 min; cell pellets were frozen immediately with dry ice and stored -80M-BM-0C. RNA was isolated using Qiagen RNeasy mini Kit (Valencia, CA, USA). RNA quality was assessed by Agilent 2100 bioanalyser using the RNA 6000 Nano Chip (Agilent Technologies, Amstelveen, The Netherlands), and quantity was determined by ND-1000 Spectrophotometer (NanoDrop Technologies, Inc., DE, USA).

Project description:antibiotic-resistant genes in Washing Machines

Project description:Water meter biofilm Raw sequence reads

Project description:Biofilm and water Raw sequence reads

Project description:water and biofilm Raw sequence reads