Your search keyword '"Herlemann DPR"' showing total 18 results

1. Funktionelle Signaturen des Darmmikrobioms als Prädiktor der Diabetesmanifestation im LEW.1AR1-iddm Rattenmodell des Typ 1 Diabetes mellitus

Author

Schöppe, T, additional, Kreikemeyer, B, additional, Sachs, JH, additional, Herlemann, DPR, additional, and Tiedge, M, additional

Published

2019

2. Improved 18S rDNA amplification protocol for assessing protist diversity in oxygen-deficient marine systems

Author

Wylezich, C, primary, Herlemann, DPR, additional, and Jürgens, K, additional

Published

2018

3. Temperature, sediment resuspension, and salinity drive the prevalence of Vibrio vulnificus in the coastal Baltic Sea.

Author

Fernández-Juárez V, Riedinger DJ, Gusmao JB, Delgado-Zambrano LF, Coll-García G, Papazachariou V, Herlemann DPR, Pansch C, Andersson AF, Labrenz M, and Riemann L

Subjects

Germany epidemiology, Denmark epidemiology, Prevalence, Vibrio Infections epidemiology, Vibrio Infections microbiology, Finland epidemiology, Oceans and Seas, Vibrio isolation & purification, Vibrio genetics, Vibrio classification, Zosteraceae microbiology, Vibrio vulnificus isolation & purification, Vibrio vulnificus genetics, Temperature, Geologic Sediments microbiology, Seawater microbiology, Salinity

Abstract

The number of Vibrio -related infections in humans, e.g., by Vibrio vulnificus , has increased along the coasts of the Baltic Sea. Due to climate change, vibriosis risk is expected to increase. It is, therefore, pertinent to design a strategy for mitigation of the vibriosis threat in the Baltic Sea area, but a prerequisite is to identify the environmental conditions promoting the occurrence of pathogenic Vibrio spp., like V. vulnificus . To address this, we sampled three coastal Baltic sites in Finland, Germany, and Denmark with salinities between 6 and 21 from May to October 2022. The absolute and relative abundances of Vibrio spp. and V. vulnificus in water were compared to environmental conditions, including the presence of the eelgrass Zostera marina , which has been suggested to reduce pathogenic Vibrio species abundance. In the water column, V. vulnificus only occurred at the German station between July and August at salinity 8.1-11.2. Temperature and phosphate (PO 4 3- ) were identified as the most influencing factors for Vibrio spp. and V. vulnificus . The accumulation of Vibrio spp. in the sediment and the co-occurrence with sediment bacteria in the water column indicate that sediment resuspension contributed to V. vulnificus abundance. Interestingly, V. vulnificus co-occurred with specific cyanobacteria taxa, as well as specific bacteria associated with cyanobacteria. Although we found no reduction in Vibrio spp. or V. vulnificus associated with eelgrass beds, our study underscores the importance of extended heatwaves and sediment resuspension, which may elevate the availability of PO 4 3- , for Vibrio species levels at intermediate salinities in the Baltic Sea., Importance: Elevated sea surface temperatures are increasing the prevalence of pathogenic Vibrio at higher latitudes. The recent increase in Vibrio -related wound infections and deaths along the Baltic coasts is, therefore, of serious health concern. We used culture-independent data generated from three Baltic coastal sites in Denmark, Germany, and Finland from May to October (2022), with a special focus on Vibrio vulnificus , and combined it with environmental data. Our temporal model shows that temperature, combined with sediment resuspension, drives the prevalence of V. vulnificus at intermediate salinities in the coastal Baltic Sea., Competing Interests: The authors declare no conflict of interest.

Published

2024

4. Distinct biogeographical patterns in snail gastrointestinal tract bacterial communities compared with sediment and water.

Author

Herlemann DPR, Tammert H, Kivistik C, Käiro K, and Kisand V

Subjects

Animals, Germany, Denmark, Gastrointestinal Microbiome genetics, Water Microbiology, Biodiversity, Estonia, Phylogeny, DNA, Bacterial genetics, Sequence Analysis, DNA, Geologic Sediments microbiology, Bacteria classification, Bacteria genetics, Bacteria isolation & purification, RNA, Ribosomal, 16S genetics, Gastrointestinal Tract microbiology, Snails microbiology

Abstract

The factors that influence the distribution of bacterial community composition are not well understood. The role of geographical patterns, which suggest limited dispersal, is still a topic of debate. Bacteria associated with hosts face unique dispersal challenges as they often rely on their hosts, which provide specific environments for their symbionts. In this study, we examined the effect of biogeographic distances on the bacterial diversity and composition of bacterial communities in the gastrointestinal tract of Ampullaceana balthica. We compared the effects on the host-associated bacterial community to those on bacterial communities in water and sediment. This comparison was made using 16S ribosomal RNA gene sequencing. We found that the bacterial communities we sampled in Estonia, Denmark, and Northern Germany varied between water, sediment, and the gastrointestinal tract. They also varied between countries within each substrate. This indicates that the type of substrate is a dominant factor in determining bacterial community composition. We separately analyzed the turnover rates of water, sediment, and gastrointestinal bacterial communities over increasing geographic distances. We observed that the turnover rate was lower for gastrointestinal bacterial communities compared to water bacterial communities. This implies that the composition of gastrointestinal bacteria remains relatively stable over distances, while water bacterial communities exhibit greater variability. However, the gastrointestinal tract had the lowest percentage of country-specific amplicon sequence variants, suggesting bacterial colonization from local bacterial communities. Since the overlap between the water and gastrointestinal tract was highest, it appears that the gastrointestinal bacterial community is colonized by the water bacterial community. Our study confirmed that biogeographical patterns in host-associated communities differ from those in water and sediment bacterial communities. These host-associated communities consist of numerous facultative symbionts derived from the water bacterial community., (© 2024 The Authors. MicrobiologyOpen published by John Wiley & Sons Ltd.)

Published

2024

5. Liver cirrhosis and antibiotic therapy but not TIPS application leads to a shift of the intestinal bacterial communities: A controlled, prospective study.

Author

Heller T, Herlemann DPR, Plieth A, Kröger JC, Weber MA, Reiner J, Jaster R, Kreikemeyer B, Lamprecht G, and Schäffler H

Subjects

Humans, Female, Male, Middle Aged, Prospective Studies, Aged, Adult, RNA, Ribosomal, 16S genetics, RNA, Ribosomal, 16S analysis, Case-Control Studies, Feces microbiology, Liver Cirrhosis microbiology, Liver Cirrhosis complications, Gastrointestinal Microbiome physiology, Anti-Bacterial Agents therapeutic use, Portasystemic Shunt, Transjugular Intrahepatic, Hypertension, Portal etiology

Abstract

Objectives: The gut-liver axis is discussed to play an important role in hepatic cirrhosis. Decompensated liver cirrhosis is associated with portal hypertension, which can lead to a variety of complications. Transjugular intrahepatic portosystemic shunt (TIPS) is an established treatment option for the complications of portal hypertension. In this study we focused on the effect of TIPS on intestinal microbial composition in cirrhotic patients., Methods: Thirty patients with liver cirrhosis were compared to 18 healthy adults. Seventeen patients with cirrhosis and portal hypertension received a TIPS. Clinical characteristics, including age, sex, and liver function measured with a Child-Pugh score and model for end-stage liver disease score, were obtained. Intestinal microbial composition was assessed via 16S rRNA gene amplicon sequencing from stool probes before and after TIPS., Results: TIPS led to a reduction of hepatic venous pressure gradient. However, TIPS did not cause a shift in the intestinal bacterial communities. Independent from the application of TIPS, antibiotic therapy was associated with a significant difference in the intestinal bacterial microbiota and also a reduced α-diversity. In addition, a significant difference was observed in the intestinal bacterial composition between patients with liver cirrhosis and healthy controls., Conclusion: The presence of liver cirrhosis and the use of antibiotic therapy, but not the application of TIPS, were associated with a significant shift of the intestinal bacterial communities, showing a high impact on the microbiota of patients with liver cirrhosis., (© 2024 The Authors. Journal of Digestive Diseases published by Chinese Medical Association Shanghai Branch, Chinese Society of Gastroenterology, Renji Hospital Affiliated to Shanghai Jiaotong University School of Medicine and John Wiley & Sons Australia, Ltd.)

Published

2024

6. Global freshwater distribution of Telonemia protists.

Author

Boukheloua R, Mukherjee I, Park H, Šimek K, Kasalický V, Ngochera M, Grossart HP, Picazo-Mozo A, Camacho A, Cabello-Yeves PJ, Rodriguez-Valera F, Callieri C, Andrei AS, Pernthaler J, Posch T, Alfreider A, Sommaruga R, Hahn MW, Sonntag B, López-García P, Moreira D, Jardillier L, Lepère C, Biderre-Petit C, Bednarska A, Ślusarczyk M, Tóth VR, Banciu HL, Kormas K, Orlić S, Šantić D, Muyzer G, Herlemann DPR, Tammert H, Bertilsson S, Langenheder S, Zechmeister T, Salmaso N, Storelli N, Capelli C, Lepori F, Lanta V, Vieira HH, Kostanjšek F, Kabeláčová K, Chiriac MC, Haber M, Shabarova T, Fernandes C, Rychtecký P, Znachor P, Szőke-Nagy T, Layoun P, Wong HL, Kavagutti VS, Bulzu PA, Salcher MM, Piwosz K, and Ghai R

Subjects

Metagenome, Lakes microbiology, Lakes parasitology, Biodiversity, Metagenomics, Fresh Water microbiology, Fresh Water parasitology, Phylogeny, RNA, Ribosomal, 18S genetics, In Situ Hybridization, Fluorescence

Abstract

Telonemia are one of the oldest identified marine protists that for most part of their history have been recognized as a distinct incertae sedis lineage. Today, their evolutionary proximity to the SAR supergroup (Stramenopiles, Alveolates, and Rhizaria) is firmly established. However, their ecological distribution and importance as a natural predatory flagellate, especially in freshwater food webs, still remain unclear. To unravel the distribution and diversity of the phylum Telonemia in freshwater habitats, we examined over a thousand freshwater metagenomes from all over the world. In addition, to directly quantify absolute abundances, we analyzed 407 samples from 97 lakes and reservoirs using Catalyzed Reporter Deposition-Fluorescence in situ Hybridization (CARD-FISH). We recovered Telonemia 18S rRNA gene sequences from hundreds of metagenomic samples from a wide variety of habitats, indicating a global distribution of this phylum. However, even after this extensive sampling, our phylogenetic analysis did not reveal any new major clades, suggesting current molecular surveys are near to capturing the full diversity within this group. We observed excellent concordance between CARD-FISH analyses and estimates of abundances from metagenomes. Both approaches suggest that Telonemia are largely absent from shallow lakes and prefer to inhabit the colder hypolimnion of lakes and reservoirs in the Northern Hemisphere, where they frequently bloom, reaching 10%-20% of the total heterotrophic flagellate population, making them important predatory flagellates in the freshwater food web., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2024

7. Impact of disturbance and dietary shift on gastrointestinal bacterial community and its invertebrate host system.

Author

Kivistik C, Tammert H, Kisand V, Käiro K, and Herlemann DPR

Subjects

Animals, Anti-Bacterial Agents pharmacology, Invertebrates, Diet, Scenedesmus physiology, Gastrointestinal Microbiome

Abstract

The gut microbiome is one of the most important sites of host-microbe interactions, however, mechanisms governing the responses of host-associated microbes to changing environmental conditions are poorly understood. To address this, we investigated individual and combined effects of dietary changes and increase in salinity (from freshwater to salinity 3) or antibiotic concentration on the gastrointestinal bacterial community of the aquatic snail Ampullaceana balthica. In parallel, the energy reserves of the host were quantified. A change of natural food source to biofilm forming green algae Scenedesmus obliquus as well as the combined treatment of salinity and S. obliquus decreased the richness and changed the composition of the A. balthica gastrointestinal bacterial community. In these treatments Pseudomonas became the dominant bacterium. However, energy reserves of the host were higher in these treatments compared to the reference aquaria specimens and the combined treatment of antibiotics with S. obliquus. The presence of antibiotics inhibited the dominance of Pseudomonas and resulted in lower energy reserves despite S. obliquus feeding. Therefore the host seems to be able to adapt and replace its bacterial community composition to respond to mild changes in salinity and food source. Antibiotics in the water can disturb this self-regulating mechanism. Our study underlines the ability of aquatic macroinvertebrates to respond to sudden changes in food source and mild shifts in salinity. Moreover, it emphasizes the strong impact of the food source on the gastrointestinal microbiome and the importance of generalists during disturbance., (© 2022 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.)

Published

2023

8. Bacterial communities in ballast tanks of cargo vessels - Shaped by salinity, treatment and the point of origin of the water but "hatch" its typical microbiome.

Author

Laas P, Künnis-Beres K, Talas L, Tammert H, Kuprijanov I, Herlemann DPR, and Kisand V

Subjects

RNA, Ribosomal, 16S genetics, Water, Bacteria genetics, Ships, Salinity, Microbiota

Abstract

Ballast water is a main vector of introduction of potentially harmful or pathogenic aquatic organisms. The development of genetic tools for ballast water monitoring has been underway and highlighted as a source for accurate and reliable data for decision making. We used 16S rRNA gene amplicon sequencing to analyze the microbial communities found in the ballast water of fifteen commercial ships routed through two Estonian ports. In parallel, samples from the port area were collected at the same time each ship visited. Fluorescence microscopy was utilized to assess the effectiveness of the treatment applied to ballast water. In addition, supplemental samples were collected from Hamburg Port (Germany) and a ballast tank decontamination system used at this port. The composition and diversity of bacterial communities varied greatly between obtained samples. The application of UV treatment did not demonstrate significant reduction in species richness estimates. The composition of microbial communities was significantly influenced by salinity, treatment (mainly untreated or UV treated) and the point of origin of the ballast water. Over a hundred potentially pathogenic bacterial taxa were found in relatively high abundance, including in ballast water that had received UV treatment. These shortcomings of stand-alone UV treatment of ballast water, especially when weak treatment is applied insufficiently, highlight the danger of possible harmful effects arising over time and the need for genetic tools for ballast water monitoring and management., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

9. Draft genome sequence of Vibrio vulnificus H1828/94, a clinical isolate of multidrug-resistant emerging pathogenic isolates.

Author

Herlemann DPR and Kisand V

Published

2022

10. Distinct stages of the intestinal bacterial community of Ampullaceana balthica after salinization.

Author

Kivistik C, Käiro K, Tammert H, Sokolova IM, Kisand V, and Herlemann DPR

Abstract

Environmental disturbances influence bacterial community structure and functioning. To investigate the effect of environmental disturbance caused by changes in salinity on host-protected bacterial communities, we analyzed the microbiome within the gastrointestinal tract of Ampullaceana balthica in different salinities. A. balthica is a benthic gastropod found in fresh- and mesohaline waters. Whereas the total energy reserves of A. balthica were unaffected by an increase of salinity to 3, a high mortality rate was detected after a shift from freshwater to salinity 6 suggesting a major disruption of energy homeostasis. The shift to salinity 6 also caused a change in the gastrointestinal bacterial community composition. At salinity 3, the bacterial community composition of different host individuals was related either to the freshwater or salinity 6 gastrointestinal bacterial community, indicating an ambivalent nature of salinity 3. Since salinity 3 represents the range where aquatic gastropods are able to regulate their osmolarity, this may be an important tipping point during salinization. The change in the intestinal microbiome was uncoupled from the change in the water bacterial community and unrelated to the food source microbiome. Our study shows that environmental disturbance caused by salinity acts also on the host-protected microbiome. In light of the sea-level rise, our findings indicate that salinization of the near-shore freshwater bodies will cause changes in organisms' intestinal microbiomes if a critical salinity threshold (presumably ∼3) is exceeded., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Kivistik, Käiro, Tammert, Sokolova, Kisand and Herlemann.)

Published

2022

11. Impact of Salinity on the Gastrointestinal Bacterial Community of Theodoxus fluviatilis .

Author

Kivistik C, Knobloch J, Käiro K, Tammert H, Kisand V, Hildebrandt JP, and Herlemann DPR

Abstract

Differences in salinity are boundaries that act as barriers for the dispersal of most aquatic organisms. This creates distinctive biota in freshwater and brackish water (mesohaline) environments. To test how saline boundaries influence the diversity and composition of host-associated microbiota, we analyzed the microbiome within the digestive tract of Theodoxus fluviatilis , an organism able to cross the freshwater and mesohaline boundary. Alpha-diversity measures of the microbiome in freshwater and brackish water were not significantly different. However, the composition of the bacterial community within freshwater T. fluviatilis differed significantly compared with mesohaline T. fluviatilis and typical bacteria could be determined for the freshwater and the mesohaline digestive tract microbiome. An artificial increase in salinity surrounding these freshwater snails resulted in a strong change in the bacterial community and typical marine bacteria became more pronounced in the digestive tract microbiome of freshwater T. fluviatilis . However, the composition of the digestive tract microbiome in freshwater snails did not converge to that found within mesohaline snails. Within mesohaline snails, no cardinal change was found after either an increase or decrease in salinity. In all samples, Pseudomonas , Pirellula , Flavobacterium , Limnohabitans , and Acinetobacter were among the most abundant bacteria. These bacterial genera were largely unaffected by changes in environmental conditions. As permanent residents in T. fluviatilis , they may support the digestion of the algal food in the digestive tract. Our results show that freshwater and mesohaline water host-associated microbiomes respond differently to changes in salinity. Therefore, the salinization of coastal freshwater environments due to a rise in sea level can influence the gut microbiome and its functions with currently unknown consequences for, e.g., nutritional physiology of the host., (Copyright © 2020 Kivistik, Knobloch, Käiro, Tammert, Kisand, Hildebrandt and Herlemann.)

Published

2020

12. Individual Physiological Adaptations Enable Selected Bacterial Taxa To Prevail during Long-Term Incubations.

Author

Herlemann DPR, Markert S, Meeske C, Andersson AF, de Bruijn I, Hentschker C, Unfried F, Becher D, Jürgens K, and Schweder T

Subjects

Bacterial Load statistics & numerical data, Oceans and Seas, RNA, Bacterial analysis, RNA, Ribosomal, 16S analysis, Salinity, Sweden, Time Factors, Bacterial Physiological Phenomena, Bacterial Proteins physiology, Proteome, Seawater microbiology

Abstract

Enclosure experiments are frequently used to investigate the impact of changing environmental conditions on microbial assemblages. Yet, how the incubation itself challenges complex bacterial communities is thus far unknown. In this study, metaproteomic profiling, 16S rRNA gene analyses, and cell counts were combined to evaluate bacterial communities derived from marine, mesohaline, and oligohaline conditions after long-term batch incubations. Early in the experiment, the three bacterial communities were highly diverse and differed significantly in their compositions. Manipulation of the enclosures with terrigenous dissolved organic carbon resulted in notable differences compared to the control enclosures at this early phase of the experiment. However, after 55 days, bacterial communities in the manipulated and the control enclosures under marine and mesohaline conditions were all dominated by gammaproteobacterium Spongiibacter In the oligohaline enclosures, actinobacterial cluster I of the hgc group (hgc-I) remained abundant in the late phase of the incubation. Metaproteome analyses suggested that the ability to use outer membrane-based internal energy stores, in addition to the previously described grazing resistance, may enable the gammaproteobacterium Spongiibacter to prevail in long-time incubations. Under oligohaline conditions, the utilization of external recalcitrant carbon appeared to be more important (hgc-I). Enclosure experiments with complex natural microbial communities are important tools to investigate the effects of manipulations. However, species-specific properties, such as individual carbon storage strategies, can cause manipulation-independent effects and need to be considered when interpreting results from enclosures. IMPORTANCE In microbial ecology, enclosure studies are often used to investigate the effect of single environmental factors on complex bacterial communities. However, in addition to the manipulation, unintended effects ("bottle effect") may occur due to the enclosure itself. In this study, we analyzed the bacterial communities that originated from three different salinities of the Baltic Sea, comparing their compositions and physiological activities both at the early stage and after 55 days of incubation. Our results suggested that internal carbon storage strategies impact the success of certain bacterial species, independent of the experimental manipulation. Thus, while enclosure experiments remain valid tools in environmental research, microbial community composition shifts must be critically followed. This investigation of the metaproteome during long-term batch enclosures expanded our current understanding of the so-called "bottle effect," which is well known to occur during enclosure experiments., (Copyright © 2019 American Society for Microbiology.)

Published

2019

13. A bacterial isolate from the Black Sea oxidizes sulfide with manganese(IV) oxide.

Author

Henkel JV, Dellwig O, Pollehne F, Herlemann DPR, Leipe T, and Schulz-Vogt HN

Subjects

Black Sea, Manganese metabolism, Oxidation-Reduction, Helicobacteraceae metabolism, Manganese Compounds metabolism, Oxides metabolism, Sulfides metabolism

Abstract

Competing Interests: The authors declare no conflict of interest.

Published

2019

14. Effect of large magnetotactic bacteria with polyphosphate inclusions on the phosphate profile of the suboxic zone in the Black Sea.

Author

Schulz-Vogt HN, Pollehne F, Jürgens K, Arz HW, Beier S, Bahlo R, Dellwig O, Henkel JV, Herlemann DPR, Krüger S, Leipe T, and Schott T

Subjects

Alphaproteobacteria genetics, Black Sea, Magnetic Phenomena, Phosphates analysis, Phosphorus analysis, Phosphotransferases (Phosphate Group Acceptor) genetics, Phosphotransferases (Phosphate Group Acceptor) metabolism, Alphaproteobacteria metabolism, Polyphosphates metabolism, Seawater chemistry, Seawater microbiology

Abstract

The Black Sea is the world's largest anoxic basin and a model system for studying processes across redox gradients. In between the oxic surface and the deeper sulfidic waters there is an unusually broad layer of 10-40 m, where neither oxygen nor sulfide are detectable. In this suboxic zone, dissolved phosphate profiles display a pronounced minimum at the upper and a maximum at the lower boundary, with a peak of particulate phosphorus in between, which was suggested to be caused by the sorption of phosphate on sinking particles of metal oxides. Here we show that bacterial polyphosphate inclusions within large magnetotactic bacteria related to the genus Magnetococcus contribute substantially to the observed phosphorus peak, as they contain 26-34% phosphorus compared to only 1-5% in metal-rich particles. Furthermore, we found increased gene expression for polyphosphate kinases by several groups of bacteria including Magnetococcaceae at the phosphate maximum, indicating active bacterial polyphosphate degradation. We propose that large magnetotactic bacteria shuttle up and down within the suboxic zone, scavenging phosphate at the upper and releasing it at the lower boundary. In contrast to a passive transport via metal oxides, this bacterial transport can quantitatively explain the observed phosphate profiles.

Published

2019

15. Microbiome and Culture Based Analysis of Chronic Rhinosinusitis Compared to Healthy Sinus Mucosa.

Author

Koeller K, Herlemann DPR, Schuldt T, Ovari A, Guder E, Podbielski A, Kreikemeyer B, and Olzowy B

Abstract

The role of bacteria in chronic rhinosinusitis (CRS) is still not well understood. Whole microbiome analysis adds new aspects to our current understanding that is mainly based on isolated bacteria. It is still unclear how the results of microbiome analysis and the classical culture based approaches interrelate. To address this, middle meatus swabs and tissue samples were obtained during sinus surgery in 5 patients with CRS with nasal polyps (CRSwNP), 5 patients with diffuse CRS without nasal polyps (CRSsNP), 5 patients with unilateral purulent maxillary CRS (upm CRS) and 3 patients with healthy sinus mucosa. Swabs were cultured, and associated bacteria were identified. Additionally, parts of each tissue sample also underwent culture approaches, and in parallel DNA was extracted for 16S rRNA gene amplicon-based microbiome analysis. From tissue samples 4.2 ± 1.2 distinct species per patient were cultured, from swabs 5.4 ± 1.6. The most frequently cultured species from the swabs were Propionibacterium acnes, Staphylococcus epidermidis, Corynebacterium spp. and Staphylococcus aureus . The 16S-RNA gene analysis revealed no clear differentiation of the bacterial community of healthy compared to CRS samples of unilateral purulent maxillary CRS and CRSwNP. However, the bacterial community of CRSsNP differed significantly from the healthy controls. In the CRSsNP samples Flavobacterium, Pseudomonas, Pedobacter, Porphyromonas, Stenotrophomonas , and Brevundimonas were significantly enriched compared to the healthy controls. Species isolated from culture did not generally correspond with the most abundant genera in microbiome analysis. Only Fusobacteria, Parvimonas , and Prevotella found in 2 unilateral purulent maxillary CRS samples by the cultivation dependent approach were also found in the cultivation independent approach in high abundance, suggesting a classic infectious pathogenesis of odontogenic origin in these two specific cases. Alterations of the bacterial community might be a more crucial factor for the development of CRSsNP compared to CRSwNP. Further studies are needed to investigate the relation between bacterial community characteristics and the development of CRSsNP.

Published

2018

16. Benthic Bacterial Community Composition in the Oligohaline-Marine Transition of Surface Sediments in the Baltic Sea Based on rRNA Analysis.

Author

Klier J, Dellwig O, Leipe T, Jürgens K, and Herlemann DPR

Abstract

Salinity has a strong impact on bacterial community composition such that freshwater bacterial communities are very different from those in seawater. By contrast, little is known about the composition and diversity of the bacterial community in the sediments (bacteriobenthos) at the freshwater-seawater transition (mesohaline conditions). In this study, partial 16S-rRNA sequences were used to investigate the bacterial community at five stations, representing almost freshwater (oligohaline) to marine conditions, in the Baltic Sea. Samples were obtained from the silty, top-layer (0-2.5 cm) sediments with mostly oxygenated conditions. The long water residence time characteristic of the Baltic Sea, was predicted to enable the development of autochthonous bacteriobenthos at mesohaline conditions. Our results showed that, similar to the water column, salinity is a major factor in structuring the bacteriobenthos and that there is no loss of bacterial richness at intermediate salinities. The bacterial communities of marine, mesohaline, and oligohaline sediments differed in terms of the relative rRNA abundances of the major bacterial phyla/classes. At mesohaline conditions typical marine and oligohaline operational taxonomic units (OTUs) were abundant. Putative unique OTUs in mesohaline sediments were present only at low abundances, suggesting that the mesohaline environment consists mainly of marine and oligohaline bacteria with a broad salinity tolerance. Our study provides a first overview of the diversity patterns and composition of bacteria in the sediments along the Baltic Sea salinity gradient as well as new insights into the bacteriobenthos at mesohaline conditions.

Published

2018

17. Differential responses of marine, mesohaline and oligohaline bacterial communities to the addition of terrigenous carbon.

Author

Herlemann DPR, Manecki M, Dittmar T, and Jürgens K

Subjects

Bacteria classification, Bacteria genetics, Carbon analysis, Estuaries, Salinity, Seawater microbiology, Sodium Chloride analysis, Bacteria isolation & purification, Bacteria metabolism, Carbon metabolism, Seawater chemistry, Sodium Chloride metabolism

Abstract

In response to global warming, increasing quantities of tDOM are transported through estuaries from land to the sea. In this study, we investigated microbial responses to increased tDOM concentrations in three salinity regimes (salinity: 32, 7 and 3) characteristic of the Baltic Sea. Mesocosm experiments performed in May and November revealed low (0-6%) dissolved organic carbon (DOC) utilisation. Molecular DOM analyses using ultrahigh-resolution mass spectrometry identified the terrigenous signal in the tDOM manipulation, but the molecular changes in DOM levels over the course of the experiment were subtle. However, tDOM had significant stimulatory effects on bacterial production in the oligohaline mesocosms. The shift in the bacterial community composition was especially prominent in the tDOM-amended marine and mesohaline mesocosms, but not in the oligohaline mesocosms after 7 and 11 days of incubation. These results suggested the inherent ability of oligohaline bacterial communities to adapt to high tDOM concentrations and therefore to use tDOM. The higher rates of bacterial activity and DOC removal in mesocosms containing UV-pretreated tDOM supported the increased bioavailability of photoinduced, modified tDOM. The overall low rates of microbial tDOM utilisation highlights the importance of abiotic factors in determining the distribution and dynamics of tDOM in estuaries., (© 2017 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2017

18. Mucosa-attached bacterial community in Crohn's disease coheres with the clinical disease activity index.

Author

Schäffler H, Herlemann DPR, Alberts C, Kaschitzki A, Bodammer P, Bannert K, Köller T, Warnke P, Kreikemeyer B, and Lamprecht G

Abstract

In inflammatory bowel diseases (IBD), microbial communities often become imbalanced suggesting abnormal microbial-gut interactions. In this study, we analysed the mucosa-attached gut microbiota from 26 Crohn's disease (CD) patients using 16S rRNA gene amplicon sequencing. The samples were stratified according to their disease activity (Crohn's disease activity index, CDAI). The different disease activity categories had a comparable bacterial richness. Bacterial communities of patients in remission and intermediate CDAI (0-220) were relatively similar and dominated by the genus Bacteroides (>40%). The bacterial composition of patients assigned to a high CDAI category was dominated by Pelomonas (25%) and Flavobacterium (13%) but had a low relative abundance of Bacteroidetes (4%). This indicates the presence of specific abundant bacterial taxa at different CDAI levels. In addition, bacterial communities were also significantly influenced when a tumour necrosis factor (TNF)-α inhibitor was applied or by the local mucosal inflammation level. As a consequence, a shift of the microbial composition may also indicate a change of the disease activity in CD patients., (© 2016 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2016