Francisella-like endosymbionts, potentially harmful to human health, are transported by the universally distributed species of the ciliate Euplotes.

Genome analyses of wild-type strains of two ecologically separated Euplotes species, E. raikovi living in temperate sea waters and E. petzi living in the polar seas, revealed that both host bacteria in their cytoplasm. These bacteria have been identified with facultative intracellular gamma-proteobacteria of the genus Francisella, which includes a number of closely related species well known as extremely infectious to a great variety of organisms. Francisella tularensis, with its four subspecies, is a specialized intracellular pathogen capable of infecting both invertebrate and vertebrate hosts, humans included; F. noatunensis is the etiological agent of the fish disease known as francisellosis, and its two subspecies well adapt to different temperatures of their hosts; the Francisella-like endosymbionts Wolbachia persica, together with the freely living generalists F. philomiragia and F. novicida cause diseases in humans with a compromised immune system. The Francisella endosymbionts of E. raikovi and E. petzi have been successfully isolated and their genomes completely sequenced. They are genetically distant from one another and form two different clades in the Francisella phylogenetic tree, which are distinct from the all other well-established Francisella clades. The finding that Francisella has equally colonized polar and temperate-water species provides evidence that this bacterium is more common and widespread than previously hypothesized, and confirms that free-living Euplotes species and ciliates in general, with their worldwide distribution, may represent a natural reservoir of Francisella in every aquatic environment

Complete Genome Sequence of Francisella endociliophora Strain FSC1006, Isolated from a Laboratory Culture of the Marine Ciliate Euplotes raikovi

A strain of Francisella endociliophora was isolated from a laboratory culture of the marine ciliate Euplotes raikovi. Here, we report the complete genome sequence of the bacterial strain FSC1006 (Francisella Strain Collection, Swedish Defence Research Agency, Umeå, Sweden)

Francisella-like endosymbionts, potentially harmful to human health, are transported by the universally distributed species of the ciliate Euplotes

Genome analyses of wild-type strains of two ecologically separated Euplotes species, E. raikovi living in temperate sea waters and E. petzi living in the polar seas, revealed that both host bacteria in their cytoplasm. These bacteria have been identified with facultative intracellular gamma-proteobacteria of the genus Francisella, which includes a number of closely related species well known as extremely infectious to a great variety of organisms. Francisella tularensis, with its four subspecies, is a specialized intracellular pathogen capable of infecting both invertebrate and vertebrate hosts, humans included; F. noatunensis is the etiological agent of the fish disease known as francisellosis, and its two subspecies well adapt to different temperatures of their hosts; the Francisella-like endosymbionts Wolbachia persica, together with the freely living generalists F. philomiragia and F. novicida cause diseases in humans with a compromised immune system. The Francisella endosymbionts of E. raikovi and E. petzi have been successfully isolated and their genomes completely sequenced. They are genetically distant from one another and form two different clades in the Francisella phylogenetic tree, which are distinct from the all other well-established Francisella clades. The finding that Francisella has equally colonized polar and temperate-water species provides evidence that this bacterium is more common and widespread than previously hypothesized, and confirms that free-living Euplotes species and ciliates in general, with their worldwide distribution, may represent a natural reservoir of Francisella in every aquatic environment

Alkali enhanced biomass gasification with in situ S capture and a novel syngas cleaning. Part 2: Techno-economic assessment

Previous research has shown that alkali addition has operational advantages in entrained flow biomass gasification and allows for capture of up to 90% of the biomass sulfur in the slag phase. The resultant low-sulfur content syngas can create new possibilities for syngas cleaning processes. The aim was to assess the techno-economic performance of biofuel production via gasification of alkali impregnated biomass using a novel gas cleaning system comprised of (i) entrained flow catalytic gasification with in situ sulfur removal, (ii) further sulfur removal using a zinc bed, (iii) tar removal using a carbon filter, and (iv) CO2 reduction with zeolite membranes, in comparison to the expensive acid gas removal system (Rectisol technology). The results show that alkali impregnation increases methanol production allowing for selling prices similar to biofuel production from non-impregnated biomass. It was concluded that the methanol production using the novel cleaning system is comparable to the Rectisol technology in terms of energy efficiency, while showing an economic advantage derived from a methanol selling price reduction of 2–6 €/MWh. The results showed a high level of robustness to changes related to prices and operation. Methanol selling prices could be further reduced by choosing low sulfur content feedstocks

Genome sequence of <em>Coxiella burnetii</em> strain Namibia.

We present the whole genome sequence and annotation of the Coxiella burnetii strain Namibia. This strain was isolated from an aborting goat in 1991 in Windhoek, Namibia. The plasmid type QpRS was confirmed in our work. Further genomic typing placed the strain into a unique genomic group. The genome sequence is 2,101,438&nbsp;bp long and contains 1,979 protein-coding and 51 RNA genes, including one rRNA operon. To overcome the poor yield from cell culture systems, an additional DNA enrichment with whole genome amplification (WGA) methods was applied. We describe a bioinformatics pipeline for improved genome assembly including several filters with a special focus on WGA characteristics

In vitro screening of biomass combustion aerosol toxicity : Part 1: Oxidative potential

Godkänd; 2011; 20111022 (esbpet

Complete Genome Sequence of Francisella guangzhouensis Strain 08HL01032(T), Isolated from Air-Conditioning Systems in China

We present the complete genome sequence of Francisella guangzhouensis strain 08HL01032(T), which consists of one chromosome (1,658,482 bp) and one plasmid ( 3,045 bp) with G+C contents of 32.0% and 28.7%, respectively