“
“Proteorhodopsins (PRs), light-driven proton pumps, constitute the largest family of the microbial rhodopsins. PRs are widely distributed in the oceanic environment and freshwater, but no bacteria with PRs have been isolated from freshwater so far. To facilitate isolation of the bacteria with PR genes, we constructed

INCB024360 solubility dmso a vector system that can be used to clone potential PR genes and render color changes when overexpressed in Escherichia coli. Using this method, we successfully isolated a strain with PR gene from freshwater and identified it as Exiguobacterium sp. JL-3. The full length PR gene was then cloned using the SEFA PCR method. Protein sequence alignment showed that JL-3_PR shares high sequence identity (84–89%) with the PRs from Exiguobacterium strains, but low sequence identity (< 38%) with other PRs. Surprisingly, we could not detect any proton-pumping activity in the native JL-3 cells and protoplasts, but the recombinant JL-3_PR do pump protons when overexpressed in E. coli. Sequence analysis further revealed that the PRs from Exiguobacterium had an unusual lysine as the proton donor instead of the typical acidic residue. These data suggest that JL-3_PR is a sensory PR rather than a proton pump. "
“Pseudomonas aeruginosa

are known to have a wide physiological potential allowing them to constantly populate diverse environments leading to severe infections of humans such as septicemia, leg ulcers, and burn wounds. We set out to probe physiological characteristics of P. aeruginosa isolates from diabetic see more leg ulcers collected from Helsinki metropolitan area. A total of 61 clinical isolates were obtained. Detailed phenotypic (physiological) characteristics [outer membrane (OM) permeability, membrane voltage, and activity of multidrug

resistance pumps] were determined in several growth phases leading to the division of the analyzed set of P. aeruginosa strains into five distinct clusters including Adenosine cells with similar physiological properties. In addition, their antibiotic resistance patterns and genetic heterogeneity were determined. Multiple isolates from the same patient were genetically very closely related and belonged to the same phenotypic cluster. However, genetically close isolates from different patients expressed very different phenotypic properties. The characteristics of infected patients seem to determine the growth environments for microorganisms that adapt by changing their physiological and/or genetic properties. “
“Cysteine synthase A encoded by cysK catalyzes the synthesis of cysteine from O-acetylserine. Expression of cysK in Escherichia coli is under the control of CysB, a LysR family transcription factor. Herein we showed that the expression of cysK is regulated by several genetic and environmental factors in addition to CysB: two genetic factors, OmpR and CysE, and lithium. Based on the findings, we constructed the high-level expression system of cysK.