Your search keyword '"Snipen LG"' showing total 13 results

1. Atlantic salmon raised with diets low in long-chain polyunsaturated n-3 fatty acids in freshwater have a Mycoplasma-dominated gut microbiota at sea

Author

Jin, Y, Angell, IL, Sandve, SR, Snipen, LG, Olsen, Y, and Rudi, K

Subjects

Aquaculture. Fisheries. Angling, SH1-691, Ecology, QH540-549.5

Abstract

Factors affecting the establishment of the gut microbiota in animals living in marine environments remain largely unknown. In terrestrial animals, however, it is well established that the juvenile environment has a major impact on the gut microbiota later in life. Atlantic salmon Salmo salar is an anadromous fish important in aquaculture with a juvenile freshwater stage and an adult seawater stage. For wild salmon, there are major dietary changes with respect to availability of long-chain polyunsaturated n-3 fatty acids (LC-n-3 PUFA) with lower abundance in freshwater systems. The aim of our work was therefore to determine the effect of a juvenile freshwater diet with high LC-n-3 PUFA, as compared to a diet low in LC-n-3 PUFA (designed to increase the endogenous LC-n-3 PUFA production), on the transition to a seawater gut microbiota for Atlantic salmon. We found a juvenile freshwater microbiota high in Firmicutes for fish raised with low LC-n-3 PUFA, while the microbiota for fish given high LC-n-3 PUFA feed was high in Proteobacteria. One hundred days after transfer to a common sea cage, fish that were given low LC-n-3 PUFA diets in freshwater showed significantly higher (p = 0.02, Kruskal-Wallis) Mycoplasma content (90 ± 7%; mean ± SD) compared to fish raised on a high LC-n-3 PUFA diet in freshwater (25 ± 31% Mycoplasma). Shotgun metagenome sequencing from fish raised with a low LC-n-3 PUFA diet identified a salmon-associated Mycoplasma in sea, being distinct from currently known Mycoplasma. The genome sequence information indicated a mutualistic lifestyle of this bacterium. Mycoplasma has also previously been identified as dominant (>70%) in sea-living adult Atlantic salmon. Taken together, our results suggest that the juvenile freshwater diet influences the establishment of the gut microbiota in marine Atlantic salmon.

Published

2019

2. METASEED: a novel approach to full-length 16S rRNA gene reconstruction from short read data.

Author

Philip M, Rudi K, Ormaasen I, Angell IL, Pettersen R, Keeley NB, and Snipen LG

Subjects

Sequence Analysis, DNA methods, Databases, Genetic, RNA, Ribosomal, 16S genetics, Metagenome genetics

Abstract

Background: With the emergence of Oxford Nanopore technology, now the on-site sequencing of 16S rRNA from environments is available. Due to the error level and structure, the analysis of such data demands some database of reference sequences. However, many taxa from complex and diverse environments, have poor representation in publicly available databases. In this paper, we propose the METASEED pipeline for the reconstruction of full-length 16S sequences from such environments, in order to improve the reference for the subsequent use of on-site sequencing., Results: We show that combining high-precision short-read sequencing of both 16S and full metagenome from the same samples allow us to reconstruct high-quality 16S sequences from the more abundant taxa. A significant novelty is the carefully designed collection of metagenome reads that matches the 16S amplicons, based on a combination of uniqueness and abundance. Compared to alternative approaches this produces superior results., Conclusion: Our pipeline will facilitate numerous studies associated with various unknown microorganisms, thus allowing the comprehension of the diverse environments. The pipeline is a potential tool in generating a full length 16S rRNA gene database for any environment., (© 2024. The Author(s).)

Published

2024

3. Swarm and UNOISE outperform DADA2 and Deblur for denoising high-diversity marine seafloor samples.

Author

Nilsen T, Snipen LG, Angell IL, Keeley NB, Majaneva S, Pettersen R, and Rudi K

Abstract

The performance of sequence variant resolution analytic tools for metabarcoding has not yet been adequately benchmarked for high-diversity environmental samples. We therefore evaluated the sequence variant tools DADA2, Deblur, Swarm, and UNOISE, using high-diversity seafloor samples, resulting in comparisons of 1800 sequence variant tables. The evaluation was based on 30 sediment grab samples, for which 3 replica samples were collected. Each replica sample was extracted using 5 common DNA extraction kits, resulting in 450 DNA extracts which were 16S rRNA gene sequenced (V3-V4), using Illumina. Assessments included variation across replica samples, extraction kits, and denoising methods, in addition to applying prior knowledge about alpha diversity correlations toward the cosmopolitan marine archaeon Nitrosopumilus with high diversity and the sulfide oxidizing Sulfurovum with low diversity . DADA2 displayed the highest variance between replicates (Manhattan distance 1.14), while Swarm showed the lowest variance (Manhattan distance 0.93). For the analysis based on prior biological knowledge, UNOISE displayed the highest alpha diversity (Simpson's D) correlation toward Nitrosopumilus (Spearman rho = 0.85), while DADA2 showed the lowest (Spearman rho = 0.10). Deblur completely eliminated Nitrosopumilus from the dataset. For Sulfurovum , on the other hand, all the methods showed comparable results. In conclusion, our evaluations show that Swarm and UNOISE performed better than DADA2 and Deblur for high-diversity seafloor samples., Competing Interests: There are no competing interests to report., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2024

4. Stable Core Gut Microbiota across the Freshwater-to-Saltwater Transition for Farmed Atlantic Salmon.

Author

Rudi K, Angell IL, Pope PB, Vik JO, Sandve SR, and Snipen LG

Subjects

Actinobacteria genetics, Actinobacteria isolation & purification, Animal Feed, Animals, Aquaculture, Bacteria classification, Bacteria genetics, Firmicutes genetics, Firmicutes isolation & purification, Fresh Water, Gastrointestinal Microbiome genetics, Lactobacillus genetics, Lactobacillus isolation & purification, Phylogeny, Polymerase Chain Reaction, Proteobacteria genetics, Proteobacteria isolation & purification, RNA, Ribosomal, 16S genetics, Salmo salar anatomy & histology, Salmo salar physiology, Seawater, Bacteria isolation & purification, Bacterial Physiological Phenomena, Gastrointestinal Microbiome physiology, Host Microbial Interactions, Salmo salar microbiology

Abstract

Gut microbiota associations through habitat transitions are fundamentally important yet poorly understood. One such habitat transition is the migration from freshwater to saltwater for anadromous fish, such as salmon. The aim of the current work was therefore to determine the freshwater-to-saltwater transition impact on the gut microbiota in farmed Atlantic salmon, with dietary interventions resembling freshwater and saltwater diets with respect to fatty acid composition. Using deep 16S rRNA gene sequencing and quantitative PCR, we found that the freshwater-to-saltwater transition had a major association with the microbiota composition and quantity, while diet did not show significant associations with the microbiota. In saltwater there was a 100-fold increase in bacterial quantity, with a relative increase of Firmicutes and a relative decrease of both Actinobacteria and Proteobacteria Irrespective of an overall shift in microbiota composition from freshwater to saltwater, we identified three core clostridia and one Lactobacillus -affiliated phylotype with wide geographic distribution that were highly prevalent and co-occurring. Taken together, our results support the importance of the dominating bacteria in the salmon gut, with the freshwater microbiota being immature. Due to the low number of potentially host-associated bacterial species in the salmon gut, we believe that farmed salmon can represent an important model for future understanding of host-bacterium interactions in aquatic environments. IMPORTANCE Little is known about factors affecting the interindividual distribution of gut bacteria in aquatic environments. We have shown that there is a core of four highly prevalent and co-occurring bacteria irrespective of feed and freshwater-to-saltwater transition. The potential host interactions of the core bacteria, however, need to be elucidated further., (Copyright © 2018 American Society for Microbiology.)

Published

2018

5. Cecal microbiota association with tumor load in a colorectal cancer mouse model.

Author

Bråten LS, Sødring M, Paulsen JE, Snipen LG, and Rudi K

Abstract

Background : Colorectal cancer (CRC) is one of the most common cancer types worldwide. The role of the intestinal microbiota in CRC, however, is not well established. In particular, the co-variation between age, tumor progression and microbiota remains largely unknown. Objective and design : We therefore used a recently developed A/J Min/+ mouse model resembling human CRC to investigate how microbial composition in cecum correlates with tumor progression, butyrate and age. Results : We found that the association between the gut microbiota and tumor load was stronger, by far, than the association with both butyrate and age. The strongest direct tumor association was found for mucosal bacteria, with nearly 60% of the significantly correlating operational taxonomic units being correlated with CRC tumor load alone. Conclusion : We favor a systemic association between tumor load and microbiota, since the correlations are associated with tumor load in gut segments other than the cecum (both small and large intestine).

Published

2017

6. Evolution of the immune system influences speciation rates in teleost fishes.

Author

Malmstrøm M, Matschiner M, Tørresen OK, Star B, Snipen LG, Hansen TF, Baalsrud HT, Nederbragt AJ, Hanel R, Salzburger W, Stenseth NC, Jakobsen KS, and Jentoft S

Subjects

Adaptation, Biological genetics, Animals, Fishes classification, Fishes genetics, Gene Dosage, Genome, Major Histocompatibility Complex, Phylogeny, Species Specificity, Biological Evolution, Fishes immunology, Genetic Speciation, Immune System

Abstract

Teleost fishes constitute the most species-rich vertebrate clade and exhibit extensive genetic and phenotypic variation, including diverse immune defense strategies. The genomic basis of a particularly aberrant strategy is exemplified by Atlantic cod, in which a loss of major histocompatibility complex (MHC) II functionality coincides with a marked expansion of MHC I genes. Through low-coverage genome sequencing (9-39×), assembly and comparative analyses for 66 teleost species, we show here that MHC II is missing in the entire Gadiformes lineage and thus was lost once in their common ancestor. In contrast, we find that MHC I gene expansions have occurred multiple times, both inside and outside this clade. Moreover, we identify an association between high MHC I copy number and elevated speciation rates using trait-dependent diversification models. Our results extend current understanding of the plasticity of the adaptive immune system and suggest an important role for immune-related genes in animal diversification.

Published

2016

7. CNOGpro: detection and quantification of CNVs in prokaryotic whole-genome sequencing data.

Author

Brynildsrud O, Snipen LG, and Bohlin J

Subjects

Base Composition, Genome, Archaeal, Genomics methods, High-Throughput Nucleotide Sequencing, Internet, Sequence Analysis, DNA, DNA Copy Number Variations, Genome, Bacterial, Software

Abstract

Motivation: The explosion of whole-genome sequencing (WGS) as a tool in the mapping and understanding of genomes has been accompanied by an equally massive report of tools and pipelines for the analysis of DNA copy number variation (CNV). Most currently available tools are designed specifically for human genomes, with comparatively little literature devoted to CNVs in prokaryotic organisms. However, there are several idiosyncrasies in prokaryotic WGS data. This work proposes a step-by-step approach for detection and quantification of copy number variants specifically aimed at prokaryotes., Results: After aligning WGS reads to a reference genome, we count the individual reads in a sliding window and normalize these counts for bias introduced by differences in GC content. We then investigate the coverage in two fundamentally different ways: (i) Employing a Hidden Markov Model and (ii) by repeated sampling with replacement (bootstrapping) on each individual gene. The latter bypasses the complex problem of breakpoint determination. To demonstrate our method, we apply it to real and simulated WGS data and benchmark it against two popular methods for CNV detection. The proposed methodology will in some cases represent a significant jump in accuracy from other current methods., Availability and Implementation: CNOGpro is written entirely in the R programming language and is available from the CRAN repository (http://cran.r-project.org) under the GNU General Public License., (© The Author 2015. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2015

8. A genomic virulence reference map of Enterococcus faecalis reveals an important contribution of phage03-like elements in nosocomial genetic lineages to pathogenicity in a Caenorhabditis elegans infection model.

Author

La Rosa SL, Snipen LG, Murray BE, Willems RJ, Gilmore MS, Diep DB, Nes IF, and Brede DA

Subjects

Adult, Animals, Disease Models, Animal, Enterococcus faecalis isolation & purification, Enterococcus faecalis virology, Genome, Bacterial, Gram-Positive Bacterial Infections microbiology, Humans, Infant, Insecta microbiology, Multilocus Sequence Typing, Survival Analysis, Symbiosis, Virulence, Bacteriophages genetics, Caenorhabditis elegans microbiology, Caenorhabditis elegans physiology, Enterococcus faecalis genetics, Enterococcus faecalis growth & development, Prophages genetics, Virulence Factors genetics

Abstract

In the present study, the commensal and pathogenic host-microbe interaction of Enterococcus faecalis was explored using a Caenorhabditis elegans model system. The virulence of 28 E. faecalis isolates representing 24 multilocus sequence types (MLSTs), including human commensal and clinical isolates as well as isolates from animals and of insect origin, was investigated using C. elegans strain glp-4 (bn2ts); sek-1 (km4). This revealed that 6 E. faecalis isolates behaved in a commensal manner with no nematocidal effect, while the remaining strains showed a time to 50% lethality ranging from 47 to 120 h. Principal component analysis showed that the difference in nematocidal activity explained 94% of the variance in the data. Assessment of known virulence traits revealed that gelatinase and cytolysin production accounted for 40.8% and 36.5% of the observed pathogenicity, respectively. However, coproduction of gelatinase and cytolysin did not increase virulence additively, accounting for 50.6% of the pathogenicity and therefore indicating a significant (26.7%) saturation effect. We employed a comparative genomic analysis approach using the 28 isolates comprising a collection of 82,356 annotated coding sequences (CDS) to identify 2,325 patterns of presence or absence among the investigated strains. Univariate statistical analysis of variance (ANOVA) established that individual patterns positively correlated (n = 61) with virulence. The patterns were investigated to identify potential new virulence traits, among which we found five patterns consisting of the phage03-like gene clusters. Strains harboring phage03 showed, on average, 17% higher killing of C. elegans (P = 4.4e(-6)). The phage03 gene cluster was also present in gelatinase-and-cytolysin-negative strain E. faecalis JH2-2. Deletion of this phage element from the JH2-2 clinical strain rendered the mutant apathogenic in C. elegans, and a similar mutant of the nosocomial V583 isolate showed significantly attenuated virulence. Bioinformatics investigation indicated that, unlike other E. faecalis virulence traits, phage03-like elements were found at a higher frequency among nosocomial isolates. In conclusion, our report provides a valuable virulence map that explains enhancement in E. faecalis virulence and contributes to a deeper comprehension of the genetic mechanism leading to the transition from commensalism to a pathogenic lifestyle., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

9. Transcriptomic and functional analysis of NaCl-induced stress in Enterococcus faecalis.

Author

Solheim M, La Rosa SL, Mathisen T, Snipen LG, Nes IF, and Brede DA

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Cell Membrane drug effects, Cell Membrane metabolism, Cell Wall drug effects, Cell Wall metabolism, Cytoprotection drug effects, Cytoprotection genetics, Enterococcus faecalis drug effects, Enterococcus faecalis growth & development, Gene Expression Profiling, Gene Expression Regulation, Bacterial drug effects, Genetic Complementation Test, Humans, Microbial Sensitivity Tests, Oligonucleotide Array Sequence Analysis, Osmolar Concentration, Promoter Regions, Genetic genetics, Reproducibility of Results, Rhamnose metabolism, Stress, Physiological drug effects, Time Factors, Transcription, Genetic drug effects, Transcriptome drug effects, Enterococcus faecalis genetics, Enterococcus faecalis physiology, Sodium Chloride pharmacology, Stress, Physiological genetics, Transcriptome genetics

Abstract

The robust physiology of Enterococcus faecalis facilitates tolerance to various stresses. We here report the transcriptional response of E. faecalis V583 to growth in the presence of 6.5% NaCl. Among the early responses observed was an immediate down-regulation of mscL, accompanied by an up-regulation of genes predicted to be involved in uptake of extracellular potassium and glycine betaine. The high NaCl concentration also induced expression of chaperons and cell envelope related traits, such as the enterococcal polysaccharide antigen (epa) locus. Functional genetic analysis revealed reduced salt stress resistance in both epaB and epaE mutants. The reduced salt resistance phenotype associated with the epaB mutant was restored by complementation, hence demonstrating a role of Epa in the physiological robustness of E. faecalis. Furthermore, we demonstrate that Epa confers increased resistance towards multiple cell envelope stress-inducing factors. Accordingly, these findings delineate a potential link between the robust nature of E. faecalis and its ability to perform as a human pathogen, and provide a new perspective on the mechanisms by which Epa contributes to virulence. Notably, the high NaCl concentration also resulted in strict repression of the gelE-sprE operon and impaired gelatinase activity. We demonstrate that NaCl antagonize the GBAP-pheromone dependent induction in a concentration dependent manner.

Published

2014

10. A domain sequence approach to pangenomics: applications to Escherichia coli.

Author

Snipen LG and Ussery DW

Abstract

The study of microbial pangenomes relies on the computation of gene families, i.e. the clustering of coding sequences into groups of essentially similar genes. There is no standard approach to obtain such gene families. Ideally, the gene family computations should be robust against errors in the annotation of genes in various genomes. In an attempt to achieve this robustness, we propose to cluster sequences by their domain sequence, i.e. the ordered sequence of domains in their protein sequence. In a study of 347 genomes from Escherichia coli we find on average around 4500 proteins having hits in Pfam-A in every genome, clustering into around 2500 distinct domain sequence families in each genome. Across all genomes we find a total of 5724 such families. A binomial mixture model approach indicates this is around 95% of all domain sequences we would expect to see in E. coli in the future. A Heaps law analysis indicates the population of domain sequences is larger, but this analysis is also very sensitive to smaller changes in the computation procedure. The resolution between strains is good despite the coarse grouping obtained by domain sequence families. Clustering sequences by their ordered domain content give us domain sequence families, who are robust to errors in the gene prediction step. The computational load of the procedure scales linearly with the number of genomes, which is needed for the future explosion in the number of re-sequenced strains. The use of domain sequence families for a functional classification of strains clearly has some potential to be explored.

Published

2012

11. Complete genome sequence of the commensal Enterococcus faecalis 62, isolated from a healthy Norwegian infant.

Author

Brede DA, Snipen LG, Ussery DW, Nederbragt AJ, and Nes IF

Subjects

Humans, Infant, Molecular Sequence Data, Norway, Enterococcus faecalis classification, Enterococcus faecalis genetics, Genome, Bacterial

Abstract

The genome of Enterococcus faecalis 62, a commensal isolate from a healthy Norwegian infant, revealed multiple adaptive traits to the gastrointestinal tract (GIT) environment and the milk-containing diet of breast-fed infants. Adaptation to a commensal existence was emphasized by lactose and other carbohydrate metabolism genes within genomic islands, accompanied by the absence of virulence traits.

Published

2011

12. Comparative genomic analysis reveals significant enrichment of mobile genetic elements and genes encoding surface structure-proteins in hospital-associated clonal complex 2 Enterococcus faecalis.

Author

Solheim M, Brekke MC, Snipen LG, Willems RJ, Nes IF, and Brede DA

Subjects

Bacterial Typing Techniques, Cross Infection microbiology, DNA, Bacterial genetics, DNA, Bacterial isolation & purification, Genetic Variation, Genomic Islands, Humans, Multilocus Sequence Typing methods, Bacterial Proteins genetics, Comparative Genomic Hybridization methods, Enterococcus faecalis genetics, Enterococcus faecalis isolation & purification, Genes, Bacterial, Membrane Proteins genetics

Abstract

Background: Enterococci rank among the leading causes of nosocomial infections. The failure to identify pathogen-specific genes in Enterococcus faecalis has led to a hypothesis where the virulence of different strains may be linked to strain-specific genes, and where the combined endeavor of the different gene-sets result in the ability to cause infection. Population structure studies by multilocus sequence typing have defined distinct clonal complexes (CC) of E. faecalis enriched in hospitalized patients (CC2, CC9, CC28 and CC40)., Results: In the present study, we have used a comparative genomic approach to investigate gene content in 63 E. faecalis strains, with a special focus on CC2. Statistical analysis using Fisher's exact test revealed 252 significantly enriched genes among CC2-strains. The majority of these genes were located within the previously defined mobile elements phage03 (n = 51), efaB5 (n = 34) and a vanB associated genomic island (n = 55). Moreover, a CC2-enriched genomic islet (EF3217 to -27), encoding a putative phage related element within the V583 genome, was identified. From the draft genomes of CC2-strains HH22 and TX0104, we also identified a CC2-enriched non-V583 locus associated with the E. faecalis pathogenicity island (PAI). Interestingly, surface related structures (including MSCRAMMs, internalin-like and WxL protein-coding genes) implicated in virulence were significantly overrepresented (9.1%; p = 0.036, Fisher's exact test) among the CC2-enriched genes., Conclusion: In conclusion, we have identified a set of genes with potential roles in adaptation or persistence in the hospital environment, and that might contribute to the ability of CC2 E. faecalis isolates to cause disease.

Published

2011

13. Comparative genomics of Enterococcus faecalis from healthy Norwegian infants.

Author

Solheim M, Aakra A, Snipen LG, Brede DA, and Nes IF

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Bacteriocins biosynthesis, Enterococcus faecalis genetics, Enterococcus faecalis metabolism, Feces microbiology, Female, Gelatinases genetics, Gelatinases metabolism, Humans, Infant, Male, Microbial Sensitivity Tests, Norway, Perforin biosynthesis, Phylogeny, Virulence Factors genetics, Bacterial Typing Techniques methods, Comparative Genomic Hybridization methods, Enterococcus faecalis classification, Genomics methods

Abstract

Background: Enterococcus faecalis, traditionally considered a harmless commensal of the intestinal tract, is now ranked among the leading causes of nosocomial infections. In an attempt to gain insight into the genetic make-up of commensal E. faecalis, we have studied genomic variation in a collection of community-derived E. faecalis isolated from the feces of Norwegian infants., Results: The E. faecalis isolates were first sequence typed by multilocus sequence typing (MLST) and characterized with respect to antibiotic resistance and properties associated with virulence. A subset of the isolates was compared to the vancomycin resistant strain E. faecalis V583 (V583) by whole genome microarray comparison (comparative genomic hybridization (CGH)). Several of the putative enterococcal virulence factors were found to be highly prevalent among the commensal baby isolates. The genomic variation as observed by CGH was less between isolates displaying the same MLST sequence type than between isolates belonging to different evolutionary lineages., Conclusion: The variations in gene content observed among the investigated commensal E. faecalis is comparable to the genetic variation previously reported among strains of various origins thought to be representative of the major E. faecalis lineages. Previous MLST analysis of E. faecalis have identified so-called high-risk enterococcal clonal complexes (HiRECC), defined as genetically distinct subpopulations, epidemiologically associated with enterococcal infections. The observed correlation between CGH and MLST presented here, may offer a method for the identification of lineage-specific genes, and may therefore add clues on how to distinguish pathogenic from commensal E. faecalis. In this work, information on the core genome of E. faecalis is also substantially extended.

Published

2009