Melaminivora

Melaminivora [Me.la.mi.ni.vo'ra. N.L. neut. n. melaminum melamine; L. v. voro to eat, to devour; N.L. fem. n. Melaminivora melamine eating]. Proteobacteria / Betaproteobacteria / Burkholderiales / Comamonadaceae / Melaminivora Rods 2.0–3.5‐μm long and 0.5–0.9‐μm wide. Motile by a single unipolar flagellum. Gram‐negative. Nonsporulating. Aerobe. Nitrate is reduced to nitrite. Mesophilic, with the ability to grow between 15 and 50°C, pH 6–9.5, and at NaCl concentrations up to 7%. Chemoorganotroph. Catalase‐ and cytochrome c oxidase‐positive. The respiratory quinone is ubiquinone 8. The major fatty acids are summed feature 3 (C16:1 ω7c/iso‐C15:0 2‐OH), C16:0, and C18:1 ω7c. C10:0 3‐OH is also present. Predominant polar lipids are phosphatidylethanolamine, phosphatidylglycerol, and diphosphatidylglycerol. DNA G + C content (mol%): 69.5–69.6 (HPLC). Type species: Melaminivora alkalimesophila Wang et al. 2014bVP.info:eu-repo/semantics/acceptedVersio

Schlegelella

Schle.gel.el'la. L. fem. dim. ending ‐ella; N.L. fem. n. Schlegelella named in honor of H. G. Schlegel, a pioneer in PHA research. Proteobacteria / Betaproteobacteria / Burkholderiales / Comamonadaceae / SchlegelellaShort rods 0.8–2.8 μm long and 0.4–0.6 μm wide. Motile. Gram‐negative. Nonsporulating. Aerobe. Moderately thermophilic or mesophilic, with optimal growth occurring at 45–50°C or 30–37°C, respectively. Chemoorganotroph. Accumulates polyhydroxyalkanoates (PHA). Catalase and cytochrome c oxidase variable. The major fatty acids are C16:0 and cyclo‐C17:0 or C16:1 ω7c and/or C16:1 ω6c, depending on the species. The type species is Schlegelella thermodepolymerans. Schlegelella aquatica and Schlegelella brevitalea are two other species with validly published names. DNA G + C content (mol%): 69.2–70.0 (HPLC) or 67.5–70.3 (genome analysis, GenBank). Type species: Schlegelella thermodepolymerans Elbanna et al. 2003VP.info:eu-repo/semantics/acceptedVersio

Bacterial diversity and antibiotic resistance in water habitats: searching the links with the human microbiome

Water is one of the most important bacterial habitats on Earth. As such, water represents also a major way of dissemination of bacteria between different environmental compartments. Human activities led to the creation of the so-called urban water cycle, comprising different sectors (waste, surface, drinking water), among which bacteria can hypothetically be exchanged. Therefore, bacteria can be mobilized between unclean water habitats (e.g. wastewater) and clean or pristine water environments (e.g. disinfected and spring drinking water) and eventually reach humans. In addition, bacteria can also transfer mobile genetic elements between different water types, other environments (e.g. soil) and humans. These processes may involve antibiotic resistant bacteria and antibiotic resistance genes. In this review, the hypothesis that some bacteria may share different water compartments and be also hosted by humans is discussed based on the comparison of the bacterial diversity in different types of water and with the human-associated microbiome. The role of such bacteria as potential disseminators of antibiotic resistance and the inference that currently only a small fraction of the clinically relevant antibiotic resistome may be known is discussed.info:eu-repo/semantics/publishedVersio

Alicycliphilus

Alicycliphilus (A.li.cy.cli'phi.lus. Gr. neut. n. aleiphar annointing oil; Gr. masc. n. kyklos circle or ring; Gr. masc. n. philos friend; N.L. masc. n. Alicyciphilus alicyclic compound liking, referring to the substrates used for the isolation of this organism). Proteobacteria / Betaproteobacteria / Burkholderiales / Comamonadaceae / Alicycliphilus. Short rods, 1–2 μm long and 0.6 μm wide. Motile. Gram‐negative. Nonsporulating. Facultative anaerobe. Nitrate is reduced to N2. Mesophilic, with optimal growth at 28–30°C and pH 7.2–7.4 under aerobic or anoxic conditions. Chemoorganotroph, with strictly respiratory metabolism. Degrade aromatic and alicyclic compounds. Catalase‐ and cytochrome c oxidase‐positive. The respiratory quinone is ubiquinone 8, and major fatty acids are C16:1 ω7c, C16:0, and C18:1 ω7c. Major polar lipids are hosphatidylethanolamine, phosphatidylglycerol, and diphosphatidylglycerol. The type strain of the type species was isolated from a wastewater treatment plant, cultivated with cyclohexanol as sole carbon source and nitrate as electron acceptor. DNA G + C content (mol%): 66 (HPLC) or 67.9 (genome analysis, GenBank). Type species: Alicycliphilus denitrificans Mechichi et al. 2003VP.info:eu-repo/semantics/acceptedVersio

Hydrogenophilus

Hy.dro.ge.ni'phi.lus. Gr. neut. n. hydor water; Gr. v. genein to produce; N.L. neut. n. hydrogenum hydrogen (that which produces water); Gr. masc. adj. philos loving, friendly to; N.L. masc. n. Hydrogenophilus hydrogen lover.Proteobacteria / Betaproteobacteria / Hydrogenophilales / Hydrogenophilaceae / Hydrogenophilus Straight rods, 0.4–0.8 × 1.0–3.0 µm during exponential growth. Occur singly or in pairs (in Hydrogenophilus islandicus and Hydrogenophilus thermoluteolus). Motile or nonmotile. Gram‐negative. Nonsporulating. Aerobic or microaerobic, having a strictly respiratory type of metabolism, with oxygen or nitrate as the terminal electron acceptor. Colonies are yellow or grayish. Thermophilic; two species grow optimally at 50–55°C, and another at 63°C. Facultatively chemolithoautotrophic; can use H2 as an electron donor and CO2 as a carbon source. CO2 is fixed via the Calvin–Benson cycle. Acetate, pyruvate, dl‐lactate, and dl‐malate can be used as electron donors and carbon sources. Ammonium can be used as a nitrogen source. The major quinone system is ubiquinone 8. Isolated from hot springs and surrounding soil.DNA G + C content (mol%): 61–65. Type species: Hydrogenophilus thermoluteolus Hayashi, Ishida, Yokota, Kodama and Igarashi 1999, 785VP.info:eu-repo/semantics/acceptedVersio

Rate adaptation for wireless video streaming based on error statistics

This paper presents a new rate-control algorithm for live video streaming over wireless IP networks, which is based on selective frame discarding. In the proposed mechanism excess 'P' frames are dropped from the output queue at the sender using a congestion estimate based on packet loss statistics obtained from RTCP feedback and from the Data Link (DL) layer. The performance of the algorithm is evaluated through computer simulation. This paper also presents a characterisation of packet losses owing to transmission errors and congestion, which can help in choosing appropriate strategies to maximise the video quality experienced by the end user. Copyright © 2007 Inderscience Enterprises Ltd

Pseudosphingobacterium domesticum gen. nov., sp. nov., isolated from home-made compost

A bacterial strain, DC-186T, isolated from home-made compost, was characterized for its phenotypic and phylogenetic properties. The isolate was a Gram-negative rod that was able to grow at 15–36 6C and pH 5.5–8.0. Strain DC-186T was positive in tests for catalase, oxidase and b-galactosidase activities and aesculin hydrolysis. The predominant fatty acids were the summed feature C16 : 1/iso-C15 : 0 2-OH (42 %) and iso-C15 : 0 (26 %), the major respiratory quinone was menaquinone-7 and the genomic DNA G+C content was 42 mol%. 16S rRNA gene sequence analysis and phenetic characterization indicated that this organism belongs to the phylum Bacteroidetes and revealed its affiliation to the family Sphingobacteriaceae. Of recognized taxa, strain DC-186T was most closely related to Sphingobacterium daejeonense (90% sequence similarity) based on 16S rRNA gene sequence analysis. The low 16S rRNA gene sequence similarity with other recognized taxa and the identification of distinctive phenetic features for this isolate support the definition of a new genus within the family Sphingobacteriaceae. The name Pseudosphingobacterium domesticum gen. nov., sp. nov. is proposed, with strain DC-186T (=CCUG 54353T=LMG 23837T) as the type strain

Gulbenkiania mobilis gen. nov., sp. nov., isolated from treated municipal wastewater

A bacterial strain (E4FC31T) isolated from treated municipal wastewater was characterized phenotypically and phylogenetically. Cells were Gram-negative, curved rods with a polar flagellum. The isolate was catalase-, oxidase- and arginine dihydrolase-positive, and able to grow between 15 and 45 6C and between pH 5.5 and 9.0. The predominant fatty acids were C16 : 1/iso-C15 : 0 2-OH and C16 : 0, the major respiratory quinone was ubiquinone 8 and the G+C content of the genomic DNA was 63 mol%. 16S rRNA gene sequence analysis indicated that strain E4FC31T belonged to the class Betaproteobacteria and was a member of the family Neisseriaceae. Its closest phylogenetic neighbours were Aquitalea magnusonii and Chromobacterium violaceum (<94% 16S rRNA gene sequence similarity). Phylogenetic analysis and phenotypic characteristics of strain E4FC31T suggest that it represents a novel species of a new genus, for which the name Gulbenkiania mobilis gen. nov., sp. nov. is proposed. The type strain of Gulbenkiania mobilis is E4FC31T (=DSM 18507T=LMG 23770T)

Efficacy of dignity therapy for depression and anxiety in terminally-ill patients: early results of a randomized controlled trial

Objective: Dignity therapy (DT) is a short-term psychotherapy developed for patients living with a life-limiting illness. Our aim was to determine the influence of DT on symptoms of depression and anxiety in people with a life-threatening disease with high level of distress, referred to an inpatient palliative care unit. Method: This was an open-label randomized controlled trial. Sixty terminally ill patients were randomly assigned to one of two groups: intervention group (DT+ standard palliative care [SPC]) or control group (SPC alone). The main outcomes were symptoms of depression and anxiety, measured with the Hospital Anxiety and Depression Scale, assessed at baseline, day 4, day 15, and day 30 of follow-up. Results: Of the 60 participants, 29 were randomized to DT and 31 to SPC. Baseline characteristics were similar between the two groups. DT was associated with a significant decrease in depressive symptoms at day 4 and day 15 (mean = −4.46, 95% CI, −6.91–2.02, p = 0.001; mean= −3.96, 95% CI, −7.33 to −0.61; p = 0.022, respectively), but not at day 30 (mean = −3.33, 95% CI, −7.32–0.65, p = 0.097). DT was also associated with a significant decrease in anxiety symptoms at each follow-up (mean= −3.96, 95% CI, −6.66 to −1.25, p = 0.005; mean= −6.19, 95% CI, −10.49 to −1.88, p = 0.006; mean = −5.07, 95% CI, −10.22 to −0.09, p = 0.054, respectively). Significance of results: DT appears to have a short-term beneficial effect on the depression and anxiety symptoms that often accompany patients at the end of their lives. Future research with larger samples compared with other treatments is needed to better understand the potential benefits of this psychotherapy

Aminoglycoside resistance in ralstonia pickettii

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