A Gram-negative, motile, rod-shaped, and aerobic bacterial strain, designated LPB0072, was isolated from a Pacific oyster (Crassostrea gigas). Autotrophic growth with hydrogen gas was not observed. Cells oxidized thiosulfate to sulfate and reduced nitrate to nitrite. The complete genome sequence of strain LPB0072 (CP017476) is 4.94 Mb in length and contains 4459 protein-coding genes, with a G+C content of 61.3 mol%. Analysis of the 16S rRNA gene sequence indicated that strain LPB0072 belongs to the genus Hydrogenophaga, with greatest sequence similarity to the type strain of Hydrogenophaga taeniospiralis (97.5 %). The isoprenoid quinone (Q-8) and the major cellular fatty acids (C16 : 1ω7c and/or C16 : 1ω6c, C16 : 0 and C17 : 1ω6c) identified were concordant with the chemotaxonomic properties of the genus Hydrogenophaga. The average nucleotide identities with closely related species were below the suggested boundary for species delineation, indicating that the isolate is a novel species. Numerous physiological and biochemical features also distinguished the isolate from other known Hydrogenophaga species. Based on the polyphasic data presented in this study, strain LPB0072 should be classified as a novel species in the genus Hydrogenophaga, and the name Hydrogenophaga crassostreae sp. nov. is proposed. The type strain is LPB0072 (=KACC 18705=JCM 31188).
Background
Healthcare-associated pneumonia (HCAP) is a heterogeneous disease. We redefined nursing-home- and hospital-associated infections (NHAI) group by revising existing HCAP risk factors. The NHAI group comprised nursing home residents with a poor functional status, or recent (past 90 days) hospitalization or recent (past 180 days) antibiotic therapy. Our aim was to determine whether respiratory microbiota profiles are related to newly defined NHAI group in critically ill patients on mechanical ventilation.
Methods
The 180 endotracheal aspirates (ETAs) from 60 mechanically ventilated ICU patients (NHAI group, n = 24; non-NHAI group, n = 36) were prospectively collected on days 1, 3 and 7 in a university hospital. The bacterial community profiles of the ETAs were explored by 16S rRNA gene sequencing. A phylogenetic-tree-based microbiome association test (TMAT), generalized linear mixed models (GLMMs), the Wilcoxon test and the reference frame method were used to analyze the association between microbiome abundance and disease phenotype.
Results
The relative abundance of the genus Corynebacterium was significantly higher in the pneumonia than in the non-pneumonia group. The microbiome analysis revealed significantly lower α-diversity in the NHAI group than in the non-NHAI group. In the analysis of β-diversity, the structure of the microbiome also differed significantly between the two groups (weighted UniFrac distance, Adonis, p < 0.001). The abundance of Corynebacterium was significantly higher, and the relative abundances of Granulicatella, Staphylococcus, Streptococcus and Veillonella were significantly lower, in the NHAI group than in the non-NHAI group.
Conclusions
The microbiota signature of the ETAs distinguished between patients with and without risk factors for NHAI. The lung microbiome may serve as a therapeutic target for NHAI group.
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