Your search keyword '"ribosomal"' showing total 3,956 results

1. A large colonial choanoflagellate from Mono Lake harbors live bacteria.

Author

Hake, K, West, P, McDonald, K, Laundon, D, Reyes-Rivera, J, Garcia De Las Bayonas, A, Feng, C, Burkhardt, P, Richter, D, Banfield, Jill, and King, Nicole

Subjects

Mono Lake, bacteria, choanoflagellates, evolution, fluorescence in situ hybridization, multicellularity, Choanoflagellata, Lakes, California, Phylogeny, Gammaproteobacteria, RNA, Ribosomal, 16S, Bacteria, Alphaproteobacteria, Sequence Analysis, DNA

Abstract

UNLABELLED: As the closest living relatives of animals, choanoflagellates offer insights into the ancestry of animal cell physiology. Here, we report the isolation and characterization of a colonial choanoflagellate from Mono Lake, California. The choanoflagellate forms large spherical colonies that are an order of magnitude larger than those formed by the closely related choanoflagellate Salpingoeca rosetta. In cultures maintained in the laboratory, the lumen of the spherical colony is filled with a branched network of extracellular matrix and colonized by bacteria, including diverse Gammaproteobacteria and Alphaproteobacteria. We propose to erect Barroeca monosierra gen. nov., sp. nov. Hake, Burkhardt, Richter, and King to accommodate this extremophile choanoflagellate. The physical association between bacteria and B. monosierra in culture presents a new experimental model for investigating interactions among bacteria and eukaryotes. Future work will investigate the nature of these interactions in wild populations and the mechanisms underpinning the colonization of B. monosierra spheres by bacteria. IMPORTANCE: The diversity of organisms that live in the extreme environment of Mono Lake (California, USA) is limited. We sought to investigate whether the closest living relatives of animals, the choanoflagellates, exist in Mono Lake, a hypersaline, alkaline, arsenic-rich environment. We repeatedly isolated members of a new species of choanoflagellate, which we have named Barroeca monosierra. Characterization of B. monosierra revealed that it forms large spherical colonies containing diverse co-isolated bacteria, providing an opportunity to investigate mechanisms underlying physical associations between eukaryotes and bacteria.

Published

2024

2. Disruption of gut barrier integrity and host–microbiome interactions underlie MASLD severity in patients with type-2 diabetes mellitus

Author

Forlano, R, Martinez-Gili, L, Takis, P, Miguens-Blanco, J, Liu, T, Triantafyllou, E, Skinner, C, Loomba, R, Thursz, M, Marchesi, JR, Mullish, BH, and Manousou, P

Subjects

Microbiology, Biological Sciences, Diabetes, Digestive Diseases, Clinical Research, Chronic Liver Disease and Cirrhosis, Liver Disease, Nutrition, 2.1 Biological and endogenous factors, Aetiology, Metabolic and endocrine, Oral and gastrointestinal, Good Health and Well Being, Humans, RNA, Ribosomal, 16S, Gastrointestinal Microbiome, Metabolic Diseases, Fatty Liver, Microbiota, Diabetes Mellitus, Type 2, Fibrosis, Microbiome, gut permeability, fibrosis, type-2 diabetes mellitus, MASLD, metabolomics

Abstract

Aberration of the "gut-liver axis" contributes to the development and progression of metabolic dysfunction-associated steatotic liver disease (MASLD). Here, we use multi-omics to analyze the gut microbiota composition and metabolic profile of patients with type-2 diabetes mellitus (T2DM). T2DM patients were screened for liver disease by blood tests, ultrasound, and liver stiffness measurements. Stool microbiota was analyzed by 16S rRNA gene sequencing; metabolomic profiling by Nuclear Magnetic Resonance spectroscopy and Ultra-High Performance-Mass Spectrometry. Microbiome and metabolic signatures were analyzed in the whole cohort and in matched subsets to identify signatures specific for steatosis (MASLD±) or fibrosis (Fibrosis±). Gut permeability was assessed in-vitro using monolayers of MDCK cells and trans-epithelial electric resistance (TEER). Cytokine profile was assessed in serum and stools.Overall, 285 patients were enrolled: 255 serum, 252 urine and 97 stool samples were analyzed. Anaeroplasma and Escherichia/Shigella ASVs were higher, while Butyricicoccus ASVs were lower in those with normal liver. In MASLD±, Butyricicoccus ASV was significantly higher in those with steatosis. In the Fibrosis±, Butyricicoccus ASV was significantly lower in those with fibrosis. Glycochenodeoxycholic acid-3-sulfate (G-UDCA-3S) appeared to be higher in MASLD with fibrosis. Fecal water from patients with MASLD and fibrosis caused the greatest drop in the TEER vs those with normal liver; this was reversed with protease inhibitors. Finally, fecal IL-13 was lower in MASLD with fibrosis. We identified microbiome signatures which were specific for steatosis and fibrosis and independent of other metabolic risk factors. Moreover, we conclude that protease-related gut permeability plays a role in those MASLD patients with fibrosis, and that disease progression is linked to a gut-liver axis which is at least partially independent of T2DM.

Published

2024

3. Hydrolysis of ionic liquid-treated substrate with an Iocasia fonsfrigidae strain SP3-1 endoglucanase.

Author

Heng, Sobroney, Sutheeworapong, Sawannee, Wangnai, Chinnapong, Champreda, Verawat, Kosugi, Akihiko, Ratanakhanokchai, Khanok, Tachaapaikoon, Chakrit, and Ceballos, Ruben

Subjects

Endoglucanase, Enzyme platform, Glycoside hydrolase family 12, Iocasia fonsfrigidae strain SP3-1, Ionic liquids, Salt tolerance, Base Composition, Cellulase, Hydrolysis, Ionic Liquids, Kinetics, Phylogeny, RNA, Ribosomal, 16S, Sequence Analysis, DNA, Sodium Chloride, Thailand, Cellulose, Glucans, Bacteria, Anaerobic

Abstract

Recently, we reported the discovery of a novel endoglucanase of the glycoside hydrolase family 12 (GH12), designated IfCelS12A, from the haloalkaliphilic anaerobic bacterium Iocasia fonsfrigidae strain SP3-1, which was isolated from a hypersaline pond in the Samut Sakhon province of Thailand (ca. 2017). IfCelS12A exhibits high substrate specificity on carboxymethyl cellulose and amorphous cellulose but low substrate specificity on b-1,3;1,4-glucan. Unlike some endoglucanases of the GH12 family, IfCelS12A does not exhibit hydrolytic activity on crystalline cellulose (i.e., Avicel™). High-Pressure Liquid Chromatography (HPLC) and Thin Layer Chromatography (TLC) analyses of products resulting from IfCelS12-mediated hydrolysis indicate mode of action for this enzyme. Notably, IfCelS12A preferentially hydrolyzes cellotetraoses, cellopentaoses, and cellohexaoses with negligible activity on cellobiose or cellotriose. Kinetic analysis with cellopentaose and barely b-D-glucan as cellulosic substrates were conducted. On cellopentaose, IfCelS12A demonstrates a 16-fold increase in activity (KM = 0.27 mM; kcat = 0.36 s-1; kcat/KM = 1.34 mM-1 s-1) compared to the enzymatic hydrolysis of barley b-D-glucan (KM: 0.04 mM, kcat: 0.51 s-1, kcat/KM = 0.08 mM-1 s-1). Moreover, IfCelS12A enzymatic efficacy is stable in hypersaline sodium chlorids (NaCl) solutions (up to 10% NaCl). Specifically, IfCel12A retains notable activity after 24 h at 2M NaCl (10% saline solution). IfCelS12A used as a cocktail component with other cellulolytic enzymes and in conjunction with mobile sequestration platform technology offers additional options for deconstruction of ionic liquid-pretreated cellulosic feedstock. KEY POINTS: • IfCelS12A from an anaerobic alkaliphile Iocasia fronsfrigidae shows salt tolerance • IfCelS12A in cocktails with other enzymes efficiently degrades cellulosic biomass • IfCelS12A used with mobile enzyme sequestration platforms enhances hydrolysis.

Published

2024

4. Fecal microbiota is associated with extraintestinal manifestations in inflammatory bowel disease.

Author

Hertz, Sandra, Anderson, Jacqueline, Nielsen, Hans, Schachtschneider, Claire, McCauley, Kathryn, Özçam, Mustafa, Larsen, Lone, Lynch, Susan, and Nielsen, Henrik

Subjects

16S rRNA sequencing, Crohn’s disease, Gut microbiota, extraintestinal manifestations, inflammatory bowel disease, ulcerative colitis, Humans, Feces, Male, Gastrointestinal Microbiome, Female, Inflammatory Bowel Diseases, Middle Aged, Adult, RNA, Ribosomal, 16S, Denmark, Leukocyte L1 Antigen Complex, Aged

Abstract

INTRODUCTION: A large proportion of patients with inflammatory bowel disease (IBD) experience IBD-related inflammatory conditions outside of the gastrointestinal tract, termed extraintestinal manifestations (EIMs) which further decreases quality of life and, in extreme cases, can be life threatening. The pathogenesis of EIMs remains unknown, and although gut microbiota alterations are a well-known characteristic of patients with IBD, its relationship with EIMs remains sparsely investigated. This study aimed to compare the gut microbiota of patients with IBD with and without EIMs. METHODS: A total of 131 Danish patients with IBD were included in the study, of whom 86 had a history of EIMs (IBD-EIM) and 45 did not (IBD-C). Stool samples underwent 16S rRNA sequencing. Amplicon sequence variants (ASVs) were mapped to the Silva database. Diversity indices and distance matrices were compared between IBD-EIM and IBD-C. Differentially abundant ASVs were identified using a custom multiple model statistical analysis approach, and modules of co-associated bacteria were identified using sparse correlations for compositional data (SparCC) and related to patient EIM status. RESULTS: Patients with IBD and EIMs exhibited increased disease activity, body mass index, increased fecal calprotectin levels and circulating monocytes and neutrophils. Microbiologically, IBD-EIM exhibited lower fecal microbial diversity than IBD-C (Mann-Whitneys test, p = .01) and distinct fecal microbiota composition (permutational multivariate analysis of variance; weighted UniFrac, R2 = 0.018, p = .01). A total of 26 ASVs exhibited differential relative abundances between IBD-EIM and IBD-C, including decreased Agathobacter and Blautia and increased Eggerthella lenta in the IBD-EIM group. SparCC analysis identified 27 bacterial co-association modules, three of which were negatively related to EIM (logistic regression, p

Published

2024

5. Sustained mucosal colonization and fecal metabolic dysfunction by Bacteroides associates with fecal microbial transplant failure in ulcerative colitis patients.

Author

Zhang, Bing, Magnaye, Kevin, Stryker, Emily, Moltzau-Anderson, Jacqueline, Porsche, Cara, Hertz, Sandra, McCauley, Kathryn, Smith, Byron, Zydek, Martin, Pollard, Katherine, Ma, Averil, El-Nachef, Najwa, and Lynch, Susan

Subjects

Humans, Colitis, Ulcerative, Fecal Microbiota Transplantation, Male, Female, Feces, Bacteroides, Adult, Intestinal Mucosa, Middle Aged, Gastrointestinal Microbiome, Treatment Failure, RNA, Ribosomal, 16S, Metabolome

Abstract

Fecal microbial transplantation (FMT) offers promise for treating ulcerative colitis (UC), though the mechanisms underlying treatment failure are unknown. This study harnessed longitudinally collected colonic biopsies (n = 38) and fecal samples (n = 179) from 19 adults with mild-to-moderate UC undergoing serial FMT in which antimicrobial pre-treatment and delivery mode (capsules versus enema) were assessed for clinical response (≥ 3 points decrease from the pre-treatment Mayo score). Colonic biopsies underwent dual RNA-Seq; fecal samples underwent parallel 16S rRNA and shotgun metagenomic sequencing as well as untargeted metabolomic analyses. Pre-FMT, the colonic mucosa of non-responsive (NR) patients harbored an increased burden of bacteria, including Bacteroides, that expressed more antimicrobial resistance genes compared to responsive (R) patients. NR patients also exhibited muted mucosal expression of innate immune antimicrobial response genes. Post-FMT, NR and R fecal microbiomes and metabolomes exhibited significant divergence. NR metabolomes had elevated concentrations of immunostimulatory compounds including sphingomyelins, lysophospholipids and taurine. NR fecal microbiomes were enriched for Bacteroides fragilis and Bacteroides salyersiae strains that encoded genes capable of taurine production. These findings suggest that both effective mucosal microbial clearance and reintroduction of bacteria that reshape luminal metabolism associate with FMT success and that persistent mucosal and fecal colonization by antimicrobial-resistant Bacteroides species may contribute to FMT failure.

Published

2024

6. Nutrient and moisture limitations reveal keystone metabolites linking rhizosphere metabolomes and microbiomes.

Author

Baker, Nameer, Zhalnina, Kateryna, Yuan, Mengting, Herman, Don, Ceja-Navarro, Javier, Sasse, Joelle, Jordan, Jacob, Bowen, Benjamin, Wu, Liyou, Fossum, Christina, Chew, Aaron, Fu, Ying, Saha, Malay, Zhou, Jizhong, Pett-Ridge, Jennifer, Northen, Trent, and Firestone, Mary

Subjects

abiotic stress, metabolome, microbiome, rhizosphere, switchgrass, Rhizosphere, Microbiota, Soil Microbiology, Metabolome, Nitrogen, RNA, Ribosomal, 16S, Nutrients, Bacteria, Soil, Phosphorus, Plant Roots, Panicum

Abstract

Plants release a wealth of metabolites into the rhizosphere that can shape the composition and activity of microbial communities in response to environmental stress. The connection between rhizodeposition and rhizosphere microbiome succession has been suggested, particularly under environmental stress conditions, yet definitive evidence is scarce. In this study, we investigated the relationship between rhizosphere chemistry, microbiome dynamics, and abiotic stress in the bioenergy crop switchgrass grown in a marginal soil under nutrient-limited, moisture-limited, and nitrogen (N)-replete, phosphorus (P)-replete, and NP-replete conditions. We combined 16S rRNA amplicon sequencing and LC-MS/MS-based metabolomics to link rhizosphere microbial communities and metabolites. We identified significant changes in rhizosphere metabolite profiles in response to abiotic stress and linked them to changes in microbial communities using network analysis. N-limitation amplified the abundance of aromatic acids, pentoses, and their derivatives in the rhizosphere, and their enhanced availability was linked to the abundance of bacterial lineages from Acidobacteria, Verrucomicrobia, Planctomycetes, and Alphaproteobacteria. Conversely, N-amended conditions increased the availability of N-rich rhizosphere compounds, which coincided with proliferation of Actinobacteria. Treatments with contrasting N availability differed greatly in the abundance of potential keystone metabolites; serotonin and ectoine were particularly abundant in N-replete soils, while chlorogenic, cinnamic, and glucuronic acids were enriched in N-limited soils. Serotonin, the keystone metabolite we identified with the largest number of links to microbial taxa, significantly affected root architecture and growth of rhizosphere microorganisms, highlighting its potential to shape microbial community and mediate rhizosphere plant-microbe interactions.

Published

2024

7. Relationship between deltamethrin resistance and gut symbiotic bacteria of Aedes albopictus by 16S rDNA sequencing.

Author

Sun, Yingbo, Li, Tingting, Zhou, Guofa, Zhou, Yunfei, Wu, Yuhong, Xu, Jiabao, Chen, Jiarong, Zhong, Saifeng, Zhong, Daibin, Liu, Rui, Lu, Gang, and Li, Yiji

Subjects

16S rDNA, Aedes albopictus, Deltamethrin, Gut commensal bacteria, Insecticide resistance, Animals, Pyrethrins, Nitriles, Aedes, Insecticide Resistance, Insecticides, Larva, RNA, Ribosomal, 16S, Symbiosis, Bacteria, Gastrointestinal Microbiome, Mosquito Vectors, DNA, Ribosomal, Female, DNA, Bacterial, Gastrointestinal Tract

Abstract

BACKGROUND: Aedes albopictus is an important vector for pathogens such as dengue, Zika, and chikungunya viruses. While insecticides is the mainstay for mosquito control, their widespread and excessive use has led to the increased resistance in Ae. albopictus globally. Gut symbiotic bacteria are believed to play a potential role in insect physiology, potentially linking to mosquitoes metabolic resistance against insecticides. METHODS: We investigated the role of symbiotic bacteria in the development of resistance in Ae. albopictus by comparing gut symbiotic bacteria between deltamethrin-sensitive and deltamethrin-resistant populations. Adults were reared from field-collected larvae. Sensitive and resistant mosquitoes were screened using 0.03% and 0.09% deltamethrin, respectively, on the basis of the World Health Organization (WHO) tube bioassay. Sensitive and resistant field-collected larvae were screened using 5 × LC50 (lethal concentration at 50% mortality) and 20 × LC50 concentration of deltamethrin, respectively. Laboratory strain deltamethrin-sensitive adults and larvae were used as controls. The DNA of gut samples from these mosquitoes were extracted using the magnetic bead method. Bacterial 16S rDNA was sequenced using BGISEQ method. We isolated and cultured gut microorganisms from adult and larvae mosquitoes using four different media: Luria Bertani (LB), brain heart infusion (BHI), nutrient agar (NA), and salmonella shigella (SS). RESULTS: Sequencing revealed significantly higher gut microbial diversity in field-resistant larvae compared with field-sensitive and laboratory-sensitive larvae (P

Published

2024

8. Changes in microbial community structure of bio-fouled polyolefins over a year-long seawater incubation in Hawaii.

Author

Connors, Elizabeth, Lebreton, Laurent, Bowman, Jeff, and Royer, Sarah-Jeanne

Subjects

Seawater, Hawaii, Bacteria, RNA, Ribosomal, 16S, RNA, Ribosomal, 18S, Microbiota, Polyenes, Biofilms, Polyethylene, Biofouling, Diatoms, Phylogeny

Abstract

Plastic waste, especially positively buoyant polymers known as polyolefins, are a major component of floating debris in the marine environment. While plastic colonisation by marine microbes is well documented from environmental samples, the succession of marine microbial community structure over longer time scales (> > 1 month) and across different types and shapes of plastic debris is less certain. We analysed 16S rRNA and 18S rRNA amplicon gene sequences from biofilms on polyolefin debris floating in a flow-through seawater tank in Hawaii to assess differences in microbial succession across the plastic types of polypropylene (PP) and both high-density polyethylene (HDPE) and low-density polyethylene (LDPE) made of different plastic shapes (rod, film and cube) under the same environmental conditions for 1 year. Regardless of type or shape, all plastic debris were dominated by the eukaryotic diatom Nitzschia, and only plastic type was significantly important for bacterial community structure over time (p = 0.005). PE plastics had higher differential abundance when compared to PP for 20 bacterial and eight eukaryotic taxa, including the known plastic degrading bacterial taxon Hyphomonas (p = 0.01). Results from our study provide empirical evidence that plastic type may be more important for bacterial than eukaryotic microbial community succession on polyolefin pollution under similar conditions.

Published

2024

9. Distinct anal microbiome is correlated with anal cancer precursors in MSM with HIV.

Author

Brickman, Cristina, Agnello, Melissa, Imam, Nabeel, Camejo, Pamela, Pino, Rodolfo, Carroll, Lauren, Chein, Aung, and Palefsky, Joel

Subjects

Humans, Male, Cross-Sectional Studies, Anus Neoplasms, HIV Infections, Homosexuality, Male, Adult, Anal Canal, Feces, Middle Aged, Microbiota, Papillomavirus Infections, Squamous Intraepithelial Lesions, RNA, Ribosomal, 16S, Sequence Analysis, DNA, DNA, Ribosomal

Abstract

OBJECTIVES: Anal cancer risk is elevated in MSM with HIV (MSMWH). Anal high-risk human papillomavirus (hr-HPV) infection is necessary but insufficient to develop high-grade squamous intraepithelial lesion (HSIL), the anal cancer precursor, suggesting additional factors. We sought to determine whether the microbiome of the anal canal is distinct by comparing it with the microbiome of stool. We also sought to determine whether changes in the anal microbiome are associated with HSIL among MSMWH. DESIGN: Cross-sectional comparison of the microbiome of the anal canal with the microbiome of stool in MSMWH and cross-sectional comparison of the anal microbiome of MSMWH with anal HSIL with the anal microbiome of MSMWH without anal HSIL. METHODS: Sterile swabs were used to sample the anus of MSMWH for microbiome and HPV testing, followed by high-resolution anoscopy. Stool samples were mailed from home. 16S sequencing was used for bacterial identification. Measures of alpha diversity, beta diversity, and differential abundance analysis were used to compare samples. RESULTS: One hundred sixty-six anal samples and 103 matching stool samples were sequenced. Beta diversity showed clustering of stool and anal samples. Of hr-HPV-positive MSMWH, 31 had HSIL and 13 had no SIL. Comparison of the microbiome between these revealed 28 different species. The highest-fold enrichment among MSMWH/hr-HPV/HSIL included pro-inflammatory and carcinogenic Prevotella, Parasuterella, Hungatella, Sneathia, and Fusobacterium species. The anti-inflammatory Anaerostipes caccae showed the greatest reduction among MSMWH/hr-HPV/HSIL. CONCLUSION: The anal microbiome is distinct from stool. A pro-inflammatory and carcinogenic environment may be associated with anal HSIL.

Published

2024

10. Combined DNA Methylation and Gastric Microbiome Marker Predicts Helicobacter pylori-Negative Gastric Cancer.

Author

Kim, Min-Jeong, Kim, Han-Na, Jacobs, Jonathan, and Yang, Hyo-Joon

Subjects

16S, Biomarkers, DNA methylation, Gastrointestinal microbiome, RNA, Stomach neoplasms, ribosomal, Humans, Male, DNA Methylation, Female, Stomach Neoplasms, Middle Aged, Case-Control Studies, Helicobacter pylori, Gastric Mucosa, Gastrointestinal Microbiome, Twist-Related Protein 1, Aged, MicroRNAs, Nuclear Proteins, Gastritis, Biomarkers, Tumor, RNA, Ribosomal, 16S, Helicobacter Infections, Metaplasia, Adaptor Proteins, Signal Transducing, Adult, Intercellular Signaling Peptides and Proteins, Homeodomain Proteins

Abstract

BACKGROUND/AIMS: While DNA methylation and gastric microbiome are each associated with gastric cancer (GC), their combined role in predicting GC remains unclear. This study investigated the potential of a combined DNA methylation and gastric microbiome signature to predict Helicobacter pylori-negative GC. METHODS: In this case-control study, we conducted quantitative methylation-specific polymerase chain reaction to measure the methylation levels of DKK3, SFRP1, EMX1, NKX6-1, MIR124-3, and TWIST1 in the gastric mucosa from 75 H. pylori-negative patients, including chronic gastritis (CG), intestinal metaplasia (IM), and GC. A combined analysis of DNA methylation and gastric microbiome, using 16S rRNA gene sequencing, was performed in 30 of 75 patients. RESULTS: The methylation levels of DKK3, SFRP1, EMX1, MIR124-3, and TWIST1 were significantly higher in patients with GC than in controls (all q

Published

2024

11. Host tracheal and intestinal microbiomes inhibit Coccidioides growth in vitro.

Author

Tejeda-Garibay, Susana, Zhao, Lihong, Hum, Nicholas, Pimentel, Maria, Diep, Anh, Amiri, Beheshta, Sindi, Suzanne, Weilhammer, Dina, Loots, Gabriela, and Hoyer, Katrina

Subjects

Coccidioides, antibiotics, lung microbiota, Animals, Coccidioides, Mice, Gastrointestinal Microbiome, Trachea, Coccidioidomycosis, Microbiota, Bacteria, Female, Anti-Bacterial Agents, RNA, Ribosomal, 16S

Abstract

UNLABELLED: Coccidioidomycosis, also known as Valley fever, is a disease caused by the fungal pathogen Coccidioides. Unfortunately, patients are often misdiagnosed with bacterial pneumonia, leading to inappropriate antibiotic treatment. The soil Bacillus subtilis-like species exhibits antagonistic properties against Coccidioides in vitro; however, the antagonistic capabilities of host microbiota against Coccidioides are unexplored. We sought to examine the potential of the tracheal and intestinal microbiomes to inhibit the growth of Coccidioides in vitro. We hypothesized that an uninterrupted lawn of microbiota obtained from antibiotic-free mice would inhibit the growth of Coccidioides, while partial in vitro depletion through antibiotic disk diffusion assays would allow a niche for fungal growth. We observed that the microbiota grown on 2×GYE (GYE) and Columbia colistin and nalidixic acid with 5% sheeps blood agar inhibited the growth of Coccidioides, but microbiota grown on chocolate agar did not. Partial depletion of the microbiota through antibiotic disk diffusion revealed diminished inhibition and comparable growth of Coccidioides to controls. To characterize the bacteria grown and identify potential candidates contributing to the inhibition of Coccidioides, 16S rRNA sequencing was performed on tracheal and intestinal agar cultures and murine lung extracts. We found that the host bacteria likely responsible for this inhibition primarily included Lactobacillus and Staphylococcus. The results of this study demonstrate the potential of the host microbiota to inhibit the growth of Coccidioides in vitro and suggest that an altered microbiome through antibiotic treatment could negatively impact effective fungal clearance and allow a niche for fungal growth in vivo. IMPORTANCE: Coccidioidomycosis is caused by a fungal pathogen that invades the host lungs, causing respiratory distress. In 2019, 20,003 cases of Valley fever were reported to the CDC. However, this number likely vastly underrepresents the true number of Valley fever cases, as many go undetected due to poor testing strategies and a lack of diagnostic models. Valley fever is also often misdiagnosed as bacterial pneumonia, resulting in 60%-80% of patients being treated with antibiotics prior to an accurate diagnosis. Misdiagnosis contributes to a growing problem of antibiotic resistance and antibiotic-induced microbiome dysbiosis; the implications for disease outcomes are currently unknown. About 5%-10% of symptomatic Valley fever patients develop chronic pulmonary disease. Valley fever causes a significant financial burden and a reduced quality of life. Little is known regarding what factors contribute to the development of chronic infections and treatments for the disease are limited.

Published

2024

12. Time of sample collection is critical for the replicability of microbiome analyses

Author

Allaband, Celeste, Lingaraju, Amulya, Flores Ramos, Stephany, Kumar, Tanya, Javaheri, Haniyeh, Tiu, Maria D, Dantas Machado, Ana Carolina, Richter, R Alexander, Elijah, Emmanuel, Haddad, Gabriel G, Leone, Vanessa A, Dorrestein, Pieter C, Knight, Rob, and Zarrinpar, Amir

Subjects

Medical Biochemistry and Metabolomics, Medical Physiology, Biomedical and Clinical Sciences, Nutrition and Dietetics, Microbiome, Genetics, Animals, Mice, Microbiota, Male, Specimen Handling, RNA, Ribosomal, 16S, Time Factors, Reproducibility of Results, Circadian Rhythm, Retrospective Studies, Medical biochemistry and metabolomics, Medical physiology, Nutrition and dietetics

Abstract

As the microbiome field moves from descriptive and associative research to mechanistic and interventional studies, being able to account for all confounding variables in the experimental design, which includes the maternal effect1, cage effect2, facility differences3, as well as laboratory and sample handling protocols4, is critical for interpretability of results. Despite significant procedural and bioinformatic improvements, unexplained variability and lack of replicability still occur. One underexplored factor is that the microbiome is dynamic and exhibits diurnal oscillations that can change microbiome composition5-7. In this retrospective analysis of 16S amplicon sequencing studies in male mice, we show that sample collection time affects the conclusions drawn from microbiome studies and its effect size is larger than those of a daily experimental intervention or dietary changes. The timing of divergence of the microbiome composition between experimental and control groups is unique to each experiment. Sample collection times as short as only 4 hours apart can lead to vastly different conclusions. Lack of consistency in the time of sample collection may explain poor cross-study replicability in microbiome research. The impact of diurnal rhythms on the outcomes and study design of other fields is unknown but likely significant.

Published

2024

13. A Prebiotic Diet Containing Galactooligosaccharides and Polydextrose Produces Dynamic and Reproducible Changes in the Gut Microbial Ecosystem in Male Rats.

Author

Thompson, Robert, Bowers, Samuel, Vargas, Fernando, Hopkins, Shelby, Kelley, Tel, Gonzalez, Antonio, Lowry, Christopher, Dorrestein, Pieter, Vitaterna, Martha, Turek, Fred, Knight, Rob, Wright, Kenneth, and Fleshner, Monika

Subjects

Parabacteroides, Ruminiclostridium 5, bile acid, deoxycholic acid, galactooligosaccharide, metabolome, microbiome, polydextrose, prebiotic, Animals, Prebiotics, Male, Gastrointestinal Microbiome, Rats, Sprague-Dawley, Oligosaccharides, Glucans, Rats, Bile Acids and Salts, Feces, Bacteria, RNA, Ribosomal, 16S, Diet

Abstract

Despite substantial evidence supporting the efficacy of prebiotics for promoting host health and stress resilience, few experiments present evidence documenting the dynamic changes in microbial ecology and fecal microbially modified metabolites over time. Furthermore, the literature reports a lack of reproducible effects of prebiotics on specific bacteria and bacterial-modified metabolites. The current experiments examined whether consumption of diets enriched in prebiotics (galactooligosaccharides (GOS) and polydextrose (PDX)), compared to a control diet, would consistently impact the gut microbiome and microbially modified bile acids over time and between two research sites. Male Sprague Dawley rats were fed control or prebiotic diets for several weeks, and their gut microbiomes and metabolomes were examined using 16S rRNA gene sequencing and untargeted LC-MS/MS analysis. Dietary prebiotics altered the beta diversity, relative abundance of bacterial genera, and microbially modified bile acids over time. PICRUSt2 analyses identified four inferred functional metabolic pathways modified by the prebiotic diet. Correlational network analyses between inferred metabolic pathways and microbially modified bile acids revealed deoxycholic acid as a potential network hub. All these reported effects were consistent between the two research sites, supporting the conclusion that dietary prebiotics robustly changed the gut microbial ecosystem. Consistent with our previous work demonstrating that GOS/PDX reduces the negative impacts of stressor exposure, we propose that ingesting a diet enriched in prebiotics facilitates the development of a health-promoting gut microbial ecosystem.

Published

2024

14. Scaling DEPP phylogenetic placement to ultra-large reference trees: a tree-aware ensemble approach.

Author

Jiang, Yueyu, McDonald, Daniel, Perry, Daniela, Knight, Rob, and Mirarab, Siavash

Subjects

Phylogeny, Algorithms, RNA, Ribosomal, 16S, Software, Computational Biology, Machine Learning, Sequence Analysis, DNA

Abstract

MOTIVATION: Phylogenetic placement of a query sequence on a backbone tree is increasingly used across biomedical sciences to identify the content of a sample from its DNA content. The accuracy of such analyses depends on the density of the backbone tree, making it crucial that placement methods scale to very large trees. Moreover, a new paradigm has been recently proposed to place sequences on the species tree using single-gene data. The goal is to better characterize the samples and to enable combined analyses of marker-gene (e.g., 16S rRNA gene amplicon) and genome-wide data. The recent method DEPP enables performing such analyses using metric learning. However, metric learning is hampered by a need to compute and save a quadratically growing matrix of pairwise distances during training. Thus, the training phase of DEPP does not scale to more than roughly 10 000 backbone species, a problem that we faced when trying to use our recently released Greengenes2 (GG2) reference tree containing 331 270 species. RESULTS: This paper explores divide-and-conquer for training ensembles of DEPP models, culminating in a method called C-DEPP. While divide-and-conquer has been extensively used in phylogenetics, applying divide-and-conquer to data-hungry machine-learning methods needs nuance. C-DEPP uses carefully crafted techniques to enable quasi-linear scaling while maintaining accuracy. C-DEPP enables placing 20 million 16S fragments on the GG2 reference tree in 41 h of computation. AVAILABILITY AND IMPLEMENTATION: The dataset and C-DEPP software are freely available at https://github.com/yueyujiang/dataset_cdepp/.

Published

2024

15. Persistent and multiclonal malaria parasite dynamics despite extended artemether-lumefantrine treatment in children.

Author

Goodwin, Justin, Kajubi, Richard, Wang, Kaicheng, Li, Fangyong, Wade, Martina, Orukan, Francis, Huang, Liusheng, Whalen, Meghan, Aweeka, Francesca, Mwebaza, Norah, and Parikh, Sunil

Subjects

Humans, Artemether, Lumefantrine Drug Combination, Antimalarials, Plasmodium falciparum, Child, Preschool, Child, Male, Malaria, Falciparum, Female, Parasitemia, RNA, Ribosomal, 18S, Malaria, Infant, HIV Infections, Artemisinins

Abstract

Standard diagnostics used in longitudinal antimalarial studies are unable to characterize the complexity of submicroscopic parasite dynamics, particularly in high transmission settings. We use molecular markers and amplicon sequencing to characterize post-treatment stage-specific malaria parasite dynamics during a 42 day randomized trial of 3- versus 5 day artemether-lumefantrine in 303 children with and without HIV (ClinicalTrials.gov number NCT03453840). The prevalence of parasite-derived 18S rRNA is >70% in children throughout follow-up, and the ring-stage marker SBP1 is detectable in over 15% of children on day 14 despite effective treatment. We find that the extended regimen significantly lowers the risk of recurrent ring-stage parasitemia compared to the standard 3 day regimen, and that higher day 7 lumefantrine concentrations decrease the probability of ring-stage parasites in the early post-treatment period. Longitudinal amplicon sequencing reveals remarkably dynamic patterns of multiclonal infections that include new and persistent clones in both the early post-treatment and later time periods. Our data indicate that post-treatment parasite dynamics are highly complex despite efficacious therapy, findings that will inform strategies to optimize regimens in the face of emerging partial artemisinin resistance in Africa.

Published

2024

16. Host factors are associated with vaginal microbiome structure in pregnancy in the ECHO Cohort Consortium

Author

McKee, Kimberly, Bassis, Christine M, Golob, Jonathan, Palazzolo, Beatrice, Sen, Ananda, Comstock, Sarah S, Rosas-Salazar, Christian, Stanford, Joseph B, O’Connor, Thomas, Gern, James E, Paneth, Nigel, and Dunlop, Anne L

Subjects

Microbiology, Biological Sciences, Biomedical and Clinical Sciences, Contraception/Reproduction, Women's Health, Infectious Diseases, Social Determinants of Health, Microbiome, Pediatric, Health Disparities, Prevention, Humans, Female, Pregnancy, Vagina, Microbiota, Adult, RNA, Ribosomal, 16S, Cohort Studies, Young Adult, ECHO Cohort Consortium, 16S rRNA gene amplicon sequence data, ECHO cohort, Host factors, Meta-analysis, Vaginal microbiota structure

Abstract

Using pooled vaginal microbiota data from pregnancy cohorts (N = 683 participants) in the Environmental influences on Child Health Outcomes (ECHO) Program, we analyzed 16S rRNA gene amplicon sequences to identify clinical and demographic host factors that associate with vaginal microbiota structure in pregnancy both within and across diverse cohorts. Using PERMANOVA models, we assessed factors associated with vaginal community structure in pregnancy, examined whether host factors were conserved across populations, and tested the independent and combined effects of host factors on vaginal community state types (CSTs) using multinomial logistic regression models. Demographic and social factors explained a larger amount of variation in the vaginal microbiome in pregnancy than clinical factors. After adjustment, lower education, rather than self-identified race, remained a robust predictor of L. iners dominant (CST III) and diverse (CST IV) (OR = 8.44, 95% CI = 4.06-17.6 and OR = 4.18, 95% CI = 1.88-9.26, respectively). In random forest models, we identified specific taxonomic features of host factors, particularly urogenital pathogens associated with pregnancy complications (Aerococcus christensenii and Gardnerella spp.) among other facultative anaerobes and key markers of community instability (L. iners). Sociodemographic factors were robustly associated with vaginal microbiota structure in pregnancy and should be considered as sources of variation in human microbiome studies.

Published

2024

17. Greengenes2 unifies microbial data in a single reference tree

Author

McDonald, Daniel, Jiang, Yueyu, Balaban, Metin, Cantrell, Kalen, Zhu, Qiyun, Gonzalez, Antonio, Morton, James T, Nicolaou, Giorgia, Parks, Donovan H, Karst, Søren M, Albertsen, Mads, Hugenholtz, Philip, DeSantis, Todd, Song, Se Jin, Bartko, Andrew, Havulinna, Aki S, Jousilahti, Pekka, Cheng, Susan, Inouye, Michael, Niiranen, Teemu, Jain, Mohit, Salomaa, Veikko, Lahti, Leo, Mirarab, Siavash, and Knight, Rob

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, RNA, Ribosomal, 16S, Phylogeny, Metagenomics, Bacteria, Databases, Genetic, Metagenome

Abstract

Studies using 16S rRNA and shotgun metagenomics typically yield different results, usually attributed to PCR amplification biases. We introduce Greengenes2, a reference tree that unifies genomic and 16S rRNA databases in a consistent, integrated resource. By inserting sequences into a whole-genome phylogeny, we show that 16S rRNA and shotgun metagenomic data generated from the same samples agree in principal coordinates space, taxonomy and phenotype effect size when analyzed with the same tree.

Published

2024

18. Novel spore-forming species exhibiting intrinsic resistance to third- and fourth-generation cephalosporins and description of Tigheibacillus jepli gen. nov., sp. nov.

Author

Miliotis, Georgios, Sengupta, Pratyay, Hameed, Asif, Chuvochina, Maria, McDonagh, Francesca, Simpson, Anna, Parker, Ceth, Singh, Nitin, Rekha, Punchappady, Morris, Dearbháile, Raman, Karthik, Hugenholtz, Philip, Venkateswaran, Kasthuri, and Kyrpides, Nikos

Subjects

Virgibacillus taxonomy, cephalosporin, phylogenetic analysis, Humans, Fatty Acids, Ceftazidime, Phylogeny, RNA, Ribosomal, 16S, Base Composition, Nucleic Acid Hybridization, Spores, Nucleotides, DNA, DNA, Bacterial, Sequence Analysis, DNA, Bacterial Typing Techniques

Abstract

UNLABELLED: A comprehensive microbial surveillance was conducted at NASAs Mars 2020 spacecraft assembly facility (SAF), where whole-genome sequencing (WGS) of 110 bacterial strains was performed. One isolate, designated 179-BFC-A-HST, exhibited less than 80% average nucleotide identity (ANI) to known species, suggesting a novel organism. This strain demonstrated high-level resistance [minimum inhibitory concentration (MIC) >256 mg/L] to third-generation cephalosporins, including ceftazidime, cefpodoxime, combination ceftazidime/avibactam, and the fourth-generation cephalosporin cefepime. The results of a comparative genomic analysis revealed that 179-BFC-A-HST is most closely related to Virgibacillus halophilus 5B73CT, sharing an ANI of 78.7% and a digital DNA-DNA hybridization (dDDH) value of 23.5%, while their 16S rRNA gene sequences shared 97.7% nucleotide identity. Based on these results and the recent recognition that the genus Virgibacillus is polyphyletic, strain 179-BFC-A-HST is proposed as a novel species of a novel genus, Tigheibacillus jepli gen. nov., sp. nov (type strain 179-BFC-A-HST = DSM 115946T = NRRL B-65666T), and its closest neighbor, V. halophilus, is proposed to be reassigned to this genus as Tigheibacillus halophilus comb. nov. (type strain 5B73CT = DSM 21623T = JCM 21758T = KCTC 13935T). It was also necessary to reclassify its second closest neighbor Virgibacillus soli, as a member of a novel genus Paracerasibacillus, reflecting its phylogenetic position relative to the genus Cerasibacillus, for which we propose Paracerasibacillus soli comb. nov. (type strain CC-YMP-6T = DSM 22952T = CCM 7714T). Within Amphibacillaceae (n = 64), P. soli exhibited 11 antibiotic resistance genes (ARG), while T. jepli encoded for 3, lacking any known β-lactamases, suggesting resistance from variant penicillin-binding proteins, disrupting cephalosporin efficacy. P. soli was highly resistant to azithromycin (MIC >64 mg/L) yet susceptible to cephalosporins and penicillins. IMPORTANCE: The significance of this research extends to understanding microbial survival and adaptation in oligotrophic environments, such as those found in SAF. Whole-genome sequencing of several strains isolated from Mars 2020 mission assembly cleanroom facilities, including the discovery of the novel species Tigheibacillus jepli, highlights the resilience and antimicrobial resistance (AMR) in clinically relevant antibiotic classes of microbes in nutrient-scarce settings. The study also redefines the taxonomic classifications within the Amphibacillaceae family, aligning genetic identities with phylogenetic data. Investigating ARG and virulence factors (VF) across these strains illuminates the microbial capability for resistance under resource-limited conditions while emphasizing the role of human-associated VF in microbial survival, informing sterilization practices and microbial management in similar oligotrophic settings beyond spacecraft assembly cleanrooms such as pharmaceutical and medical industry cleanrooms.

Published

2024

19. Herptile gut microbiomes: a natural system to study multi-kingdom interactions between filamentous fungi and bacteria

Author

Vargas-Gastélum, Lluvia, Romer, Alexander S, Ghotbi, Marjan, Dallas, Jason W, Alexander, N Reed, Moe, Kylie C, McPhail, Kerry L, Neuhaus, George F, Shadmani, Leila, Spatafora, Joseph W, Stajich, Jason E, Tabima, Javier F, and Walker, Donald M

Subjects

Microbiology, Biological Sciences, Ecology, Human Genome, Genetics, Biotechnology, 2.2 Factors relating to the physical environment, Aetiology, Infection, Life on Land, Bacteria, Fungi, Gastrointestinal Microbiome, Microbiota, RNA, Ribosomal, 16S, Animals, amphibian, reptile, anaerobic gut fungi, mycobiome, cyclic peptide, specialized metabolite, non-ribosomal peptide synthetases, Immunology

Abstract

Reptiles and amphibians (herptiles) are some of the most endangered and threatened species on the planet and numerous conservation strategies are being implemented with the goal of ensuring species recovery. Little is known, however, about the gut microbiome of wild herptiles and how it relates to the health of these populations. Here, we report results from the gut microbiome characterization of both a broad survey of herptiles, and the correlation between the fungus Basidiobolus, and the bacterial community supported by a deeper, more intensive sampling of Plethodon glutinosus, known as slimy salamanders. We demonstrate that bacterial communities sampled from frogs, lizards, and salamanders are structured by the host taxonomy and that Basidiobolus is a common and natural component of these wild gut microbiomes. Intensive sampling of multiple hosts across the ecoregions of Tennessee revealed that geography and host:geography interactions are strong predictors of distinct Basidiobolus operational taxonomic units present within a given host. Co-occurrence analyses of Basidiobolus and bacterial community diversity support a correlation and interaction between Basidiobolus and bacteria, suggesting that Basidiobolus may play a role in structuring the bacterial community. We further the hypothesis that this interaction is advanced by unique specialized metabolism originating from horizontal gene transfer from bacteria to Basidiobolus and demonstrate that Basidiobolus is capable of producing a diversity of specialized metabolites including small cyclic peptides.IMPORTANCEThis work significantly advances our understanding of biodiversity and microbial interactions in herptile microbiomes, the role that fungi play as a structural and functional members of herptile gut microbiomes, and the chemical functions that structure microbiome phenotypes. We also provide an important observational system of how the gut microbiome represents a unique environment that selects for novel metabolic functions through horizontal gene transfer between fungi and bacteria. Such studies are needed to better understand the complexity of gut microbiomes in nature and will inform conservation strategies for threatened species of herpetofauna.

Published

2024

20. Inflammatory Dietary Potential Is Associated with Vitamin Depletion and Gut Microbial Dysbiosis in Early Pregnancy.

Author

Alvernaz, Suzanne, Wenzel, Elizabeth, Nagelli, Unnathi, Pezley, Lacey, LaBomascus, Bazil, Gilbert, Jack, Maki, Pauline, Tussing-Humphreys, Lisa, and Peñalver Bernabé, Beatriz

Subjects

diet, dietary inflammatory index, food frequency questionnaire, galactose, gut microbiota, inflammation, pregnancy, Infant, Newborn, Female, Pregnancy, Humans, Dysbiosis, Gastrointestinal Microbiome, RNA, Ribosomal, 16S, Premature Birth, Avitaminosis, Diet, Vitamins, Inflammation

Abstract

Pregnancy alters many physiological systems, including the maternal gut microbiota. Diet is a key regulator of this system and can alter the host immune system to promote inflammation. Multiple perinatal disorders have been associated with inflammation, maternal metabolic alterations, and gut microbial dysbiosis, including gestational diabetes mellitus, pre-eclampsia, preterm birth, and mood disorders. However, the effects of high-inflammatory diets on the gut microbiota during pregnancy have yet to be fully explored. We aimed to address this gap using a system-based approach to characterize associations among dietary inflammatory potential, a measure of diet quality, and the gut microbiome during pregnancy. Forty-seven pregnant persons were recruited prior to 16 weeks of gestation. Participants completed a food frequency questionnaire (FFQ) and provided fecal samples. Dietary inflammatory potential was assessed using the Dietary Inflammatory Index (DII) from the FFQ data. Fecal samples were analyzed using 16S rRNA amplicon sequencing. Differential taxon abundances with respect to the DII score were identified, and the microbial metabolic potential was predicted using PICRUSt2. Inflammatory diets were associated with decreased vitamin and mineral intake and a dysbiotic gut microbiota structure and predicted metabolism. Gut microbial compositional differences revealed a decrease in short-chain fatty acid producers such as Faecalibacterium, and an increase in predicted vitamin B12 synthesis, methylglyoxal detoxification, galactose metabolism, and multidrug efflux systems in pregnant individuals with increased DII scores. Dietary inflammatory potential was associated with a reduction in the consumption of vitamins and minerals and predicted gut microbiota metabolic dysregulation.

Published

2024

21. Evolutionary history influences the microbiomes of a female symbiotic reproductive organ in cephalopods.

Author

Vijayan, Nidhi, McAnulty, Sarah, Sanchez, Gustavo, Jolly, Jeffrey, Ikeda, Yuzuru, Nishiguchi, Michele, Réveillac, Elodie, Gestal, Camino, Spady, Blake, Li, Diana, Burford, Benjamin, Kerwin, Allison, and Nyholm, Spencer

Subjects

Alphaproteobacteria, Verrucomicrobia, accessory nidamental gland, cephalopod, microbial communities, microbiomes, phylosymbiosis, symbiosis, Humans, Animals, Female, Cephalopoda, Phylogeny, RNA, Ribosomal, 16S, Microbiota, Decapodiformes, Genitalia, Bacteria, Symbiosis

Abstract

Many female squids and cuttlefishes have a symbiotic reproductive organ called the accessory nidamental gland (ANG) that hosts a bacterial consortium involved with egg defense against pathogens and fouling organisms. While the ANG is found in multiple cephalopod families, little is known about the global microbial diversity of these ANG bacterial symbionts. We used 16S rRNA gene community analysis to characterize the ANG microbiome from different cephalopod species and assess the relationship between host and symbiont phylogenies. The ANG microbiome of 11 species of cephalopods from four families (superorder: Decapodiformes) that span seven geographic locations was characterized. Bacteria of class Alphaproteobacteria, Gammaproteobacteria, and Flavobacteriia were found in all species, yet analysis of amplicon sequence variants by multiple distance metrics revealed a significant difference between ANG microbiomes of cephalopod families (weighted/unweighted UniFrac, Bray-Curtis, P = 0.001). Despite being collected from widely disparate geographic locations, members of the family Sepiolidae (bobtail squid) shared many bacterial taxa including (~50%) Opitutae (Verrucomicrobia) and Ruegeria (Alphaproteobacteria) species. Furthermore, we tested for phylosymbiosis and found a positive correlation between host phylogenetic distance and bacterial community dissimilarity (Mantel test r = 0.7). These data suggest that closely related sepiolids select for distinct symbionts from similar bacterial taxa. Overall, the ANGs of different cephalopod species harbor distinct microbiomes and thus offer a diverse symbiont community to explore antimicrobial activity and other functional roles in host fitness.IMPORTANCEMany aquatic organisms recruit microbial symbionts from the environment that provide a variety of functions, including defense from pathogens. Some female cephalopods (squids, bobtail squids, and cuttlefish) have a reproductive organ called the accessory nidamental gland (ANG) that contains a bacterial consortium that protects eggs from pathogens. Despite the wide distribution of these cephalopods, whether they share similar microbiomes is unknown. Here, we studied the microbial diversity of the ANG in 11 species of cephalopods distributed over a broad geographic range and representing 15-120 million years of host divergence. The ANG microbiomes shared some bacterial taxa, but each cephalopod species had unique symbiotic members. Additionally, analysis of host-symbiont phylogenies suggests that the evolutionary histories of the partners have been important in shaping the ANG microbiome. This study advances our knowledge of cephalopod-bacteria relationships and provides a foundation to explore defensive symbionts in other systems.

Published

2024

22. Co-occurrence network analysis reveals the alterations of the skin microbiome and metabolome in adults with mild to moderate atopic dermatitis.

Author

P Gomes, Paulo, Mannochio-Russo, Helena, Mao, Junhong, Zhao, Haoqi, Ancira, Jacob, Tipton, Craig, Dorrestein, Pieter, and Li, Min

Subjects

dysbiosis, metabolomics profiling, microbiota, pathogenesis, skin inflammation, Adult, Humans, Dermatitis, Atopic, Staphylococcus aureus, RNA, Ribosomal, 16S, Microbiota, Metabolome, Bacteria, Dipeptides

Abstract

Skin microbiome can be altered in patients with atopic dermatitis (AD). An understanding of the changes from healthy to atopic skin can help develop new targets for treatment by identifying microbial and molecular biomarkers. This study investigates the skin microbiome and metabolome of healthy adult subjects and lesion (ADL) and non-lesion (ADNL) of AD patients by 16S rRNA gene sequencing and mass spectrometry, respectively. Samples from AD patients showed alterations in the diversity and composition of the skin microbiome, with ADL skin having the greatest divergence. Staphylococcus species, especially S. aureus, were significantly increased in AD patients. Metabolomic profiles were also different between the groups. Dipeptide derivatives are more abundant in ADL, which may be related to skin inflammation. Co-occurrence network analysis of the microbiome and metabolomics data revealed higher co-occurrence of metabolites and bacteria in healthy ADNL compared to ADL. S. aureus co-occurred with dipeptide derivatives in ADL, while phytosphingosine-derived compounds showed co-occurrences with commensal bacteria, for example, Paracoccus sp., Pseudomonas sp., Prevotella bivia, Lactobacillus iners, Anaerococcus sp., Micrococcus sp., Corynebacterium ureicelerivorans, Corynebacterium massiliense, Streptococcus thermophilus, and Roseomonas mucosa, in healthy and ADNL groups. Therefore, these findings provide valuable insights into how AD affects the human skin metabolome and microbiome.IMPORTANCEThis study provides valuable insight into changes in the skin microbiome and associated metabolomic profiles in an adult population with mild to moderate atopic dermatitis. It also identifies new therapeutic targets that may be useful for developing personalized treatments for individuals with atopic dermatitis based on their unique skin microbiome and metabolic profiles.

Published

2024

23. Microbial and Metabolite Signatures of Stress Reactivity in Ulcerative Colitis Patients in Clinical Remission Predict Clinical Flare Risk.

Author

Jacobs, Jonathan, Sauk, Jenny, Ahdoot, Aaron, Liang, Fengting, Katzka, William, Ryu, Hyo, Khandadash, Ariela, Lagishetty, Venu, Labus, Jennifer, Naliboff, Bruce, and Mayer, Emeran

Subjects

biomarkers, flare prediction, metabolomics, microbiome, stress reactivity, Humans, Colitis, Ulcerative, Endocannabinoids, RNA, Ribosomal, 16S, Bile Acids and Salts, Clostridiales

Abstract

BACKGROUND: Stress reactivity (SR) is associated with increased risk of flares in ulcerative colitis (UC) patients. Because both preclinical and clinical data support that stress can influence gut microbiome composition and function, we investigated whether microbiome profiles of SR exist in UC. METHODS: Ninety-one UC subjects in clinical and biochemical remission were classified into high and low SR groups by questionnaires. Baseline and longitudinal characterization of the intestinal microbiome was performed by 16S rRNA gene sequencing and fecal and plasma global untargeted metabolomics. Microbe, fecal metabolite, and plasma metabolite abundances were analyzed separately to create random forest classifiers for high SR and biomarker-derived SR scores. RESULTS: High SR reactivity was characterized by altered abundance of fecal microbes, primarily in the Ruminococcaceae and Lachnospiraceae families; fecal metabolites including reduced levels of monoacylglycerols (endocannabinoid-related) and bile acids; and plasma metabolites including increased 4-ethyl phenyl sulfate, 1-arachidonoylglycerol (endocannabinoid), and sphingomyelin. Classifiers generated from baseline microbe, fecal metabolite, and plasma metabolite abundance distinguished high vs low SR with area under the receiver operating characteristic curve of 0.81, 0.83, and 0.91, respectively. Stress reactivity scores derived from these classifiers were significantly associated with flare risk during 6 to 24 months of follow-up, with odds ratios of 3.8, 4.1, and 4.9. Clinical flare and intestinal inflammation did not alter fecal microbial abundances but attenuated fecal and plasma metabolite differences between high and low SR. CONCLUSIONS: High SR in UC is characterized by microbial signatures that predict clinical flare risk, suggesting that the microbiome may contribute to stress-induced UC flares.

Published

2024

24. Pontiella agarivorans sp. nov., a novel marine anaerobic bacterium capable of degrading macroalgal polysaccharides and fixing nitrogen.

Author

Liu, Na, Kivenson, Veronika, Peng, Xuefeng, Cui, Zhisong, Lankiewicz, Thomas, Gosselin, Kelsey, English, Chance, Blair, Elaina, OMalley, Michelle, and Valentine, Dave

Subjects

CAZymes, Kiritimatiellota, nitrogen fixation, novel bacterium, polysaccharides, sulfatases, Anaerobiosis, Base Composition, RNA, Ribosomal, 16S, Phylogeny, Sequence Analysis, DNA, Bacteria, Anaerobic, Polysaccharides, Alteromonadaceae, Carrageenan, DNA, Bacterial, Fatty Acids, Bacterial Typing Techniques

Abstract

Marine macroalgae produce abundant and diverse polysaccharides, which contribute substantially to the organic matter exported to the deep ocean. Microbial degradation of these polysaccharides plays an important role in the turnover of macroalgal biomass. Various members of the Planctomycetes-Verrucomicrobia-Chlamydia (PVC) superphylum are degraders of polysaccharides in widespread anoxic environments. In this study, we isolated a novel anaerobic bacterial strain NLcol2T from microbial mats on the surface of marine sediments offshore Santa Barbara, CA, USA. Based on 16S ribosomal RNA (rRNA) gene and phylogenomic analyses, strain NLcol2T represents a novel species within the Pontiella genus in the Kiritimatiellota phylum (within the PVC superphylum). Strain NLcol2T is able to utilize various monosaccharides, disaccharides, and macroalgal polysaccharides such as agar and ɩ-carrageenan. A near-complete genome also revealed an extensive metabolic capacity for anaerobic degradation of sulfated polysaccharides, as evidenced by 202 carbohydrate-active enzymes (CAZymes) and 165 sulfatases. Additionally, its ability of nitrogen fixation was confirmed by nitrogenase activity detected during growth on nitrogen-free medium, and the presence of nitrogenases (nifDKH) encoded in the genome. Based on the physiological and genomic analyses, this strain represents a new species of bacteria that may play an important role in the degradation of macroalgal polysaccharides and with relevance to the biogeochemical cycling of carbon, sulfur, and nitrogen in marine environments. Strain NLcol2T (= DSM 113125T = MCCC 1K08672T) is proposed to be the type strain of a novel species in the Pontiella genus, and the name Pontiella agarivorans sp. nov. is proposed.IMPORTANCEGrowth and intentional burial of marine macroalgae is being considered as a carbon dioxide reduction strategy but elicits concerns as to the fate and impacts of this macroalgal carbon in the ocean. Diverse heterotrophic microbial communities in the ocean specialize in these complex polymers such as carrageenan and fucoidan, for example, members of the Kiritimatiellota phylum. However, only four type strains within the phylum have been cultivated and characterized to date, and there is limited knowledge about the metabolic capabilities and functional roles of related organisms in the environment. The new isolate strain NLcol2T expands the known substrate range of this phylum and further reveals the ability to fix nitrogen during anaerobic growth on macroalgal polysaccharides, thereby informing the issue of macroalgal carbon disposal.

Published

2024

25. Judicial Opinion 129.

Author

Arahal, David R, Bull, Carolee T, Christensen, Henrik, Chuvochina, Maria, Dedysh, Svetlana N, Fournier, Pierre-Edouard, Konstantinidis, Konstantinos T, Parker, Charles T, Ventosa, Antonio, Young, Peter, and Göker, Markus

Subjects

Microbiology, Biological Sciences, Animals, Hylobates, Phylogeny, Sequence Analysis, DNA, RNA, Ribosomal, 16S, DNA, Bacterial, Bacterial Typing Techniques, Base Composition, Fatty Acids, Firmicutes, archaea, bacteria, classification, division, nomenclature, phylum, taxonomy, Evolutionary Biology, Medical Microbiology, Evolutionary biology

Abstract

Opinion 129 addresses the status of Firmicutes corrig. Gibbons and Murray 1978 (Approved Lists 1980). The name has the category 'division' and was included in the Approved Lists of Bacterial Names, although that category had previously been removed from the International Code of Nomenclature of Bacteria (1975 revision onwards). When the category 'phylum' was introduced into the International Code of Nomenclature of Prokaryotes (ICNP) in 2021, equivalence between 'phylum' and 'division' was not stipulated. Since the definition of the taxonomic categories and their relative order is one of the principal tasks of every code of nomenclature, the inclusion of Firmicutes corrig. Gibbons and Murray 1978 in the Approved Lists was an error. The name is either not validly published or illegitimate because its category is not covered by the ICNP. If Firmicutes corrig. Gibbons and Murray 1978 (Approved Lists 1980) was a validly published phylum name, it would be illegitimate because it would contravene Rule 8, which does not permit any deviation from the requirement to derive a phylum name from the name of the type genus. Since Firmicutes corrig. Gibbons and Murray 1978 is also part of a 'misfitting megaclassification' recognized in Opinion 128, the name is rejected, without any pre-emption regarding a hypothetically validly published name Firmicutes at the rank of phylum. Gracilicutes Gibbons and Murray 1978 (Approved Lists 1980) and Anoxyphotobacteriae Gibbons and Murray 1978 (Approved Lists 1980) are also rejected. The validly published phylum names have a variety of advantages over their not validly published counterparts and cannot be replaced with ad hoc names suggested in the literature. To ease the transition, it is recommended to mention the not validly published phylum names which strongly deviate in spelling from their validly published counterparts along with the latter in publications during the next years.

Published

2024

26. Gut Microbiota Uniqueness Is Associated with Lake Size, a Proxy for Diet Diversity, in Stickleback Fish.

Author

Härer, Andreas and Rennison, Diana J

Subjects

Microbiology, Biological Sciences, Ecology, Nutrition, Microbiome, Animals, Gastrointestinal Microbiome, Smegmamorpha, Lakes, Fishes, Diet, RNA, Ribosomal, 16S, threespine stickleback, 16S ribosomal RNA (rRNA) sequencing, trophic divergence, freshwater fish, adaptation, ecological niche, Biological sciences

Abstract

AbstractOrganismal divergence can be driven by differential resource use and adaptation to different trophic niches. Variation in diet is a major factor shaping the gut microbiota, which is crucial for many aspects of their hosts' biology. However, it remains largely unknown how host diet diversity affects the gut microbiota, and it could be hypothesized that trophic niche width is positively associated with gut microbiota diversity. To test this idea, we sequenced the 16S ribosomal RNA gene from intestinal tissue of 14 threespine stickleback populations from lakes of varying size on Vancouver Island, Canada, that have been shown to differ in trophic niche width. Using lake size as a proxy for trophic ecology, we found evidence for higher gut microbiota uniqueness among individuals from populations with broader trophic niches. While these results suggest that diet diversity might promote gut microbiota diversity, additional work investigating diet and gut microbiota variation of the same host organisms will be necessary. Yet our results motivate the question of how host population diversity (e.g., ecological, morphological, genetic) might interact with the gut microbiota during the adaptation to ecological niches.

Published

2024

27. Anoplocephalid tapeworms in mountain gorillas (Gorilla beringei beringei) inhabiting the Volcanoes National Park, Rwanda.

Author

Červená, Barbora, Prokopová, Tereza, Cameira, Rita, Pafčo, Barbora, Samaš, Peter, Romportl, Dušan, Uwamahoro, Carine, Noheri, Jean, Ntwari, Adrien, Bahizi, Méthode, Nzayisenga, Gaspard, Nziza, Julius, Eckardt, Winnie, Ndagijimana, Felix, Mudakikwa, Antoine, Muvunyi, Richard, Uwingeli, Prosper, Cranfield, Michael, Šlapeta, Jan, Petrželková, Klára, Modrý, David, and Gilardi, Kirsten

Subjects

Anoplocephala, Anoplocephalidae, Bertiella, Gorilla beringei, Rwanda, mountain gorilla, parasite ecology, parasite epidemiology, Animals, Gorilla gorilla, Rwanda, Parks, Recreational, Phylogeny, Cestoda, DNA, Ribosomal

Abstract

Cestodes of the family Anoplocephalidae parasitize a wide range of usually herbivorous hosts including e.g. rodents, ungulates, primates, elephants and hyraxes. While in some hosts, the epidemiology of the infection is well studied, information is lacking in others. In this study of mountain gorillas in the Virunga Massif, an extensive sample set comprising adult cestodes collected via necropsies, proglottids shed in feces, and finally, fecal samples from both night nests and identified individuals were analysed. Anoplocephala gorillae was the dominant cestode species detected in night nest samples and individually known gorillas, of which only 1 individual hosted a Bertiella sp. It was shown that the 2 species can be distinguished through microscopy based on egg morphology and polymerase chain reaction (PCR) assays for diagnostics of both species were provided. Sequences of mitochondrial (cox 1) and nuclear (ITS1, 18S rDNA, 28S rDNA) markers were used to evaluate the phylogenetic position of the 2 cestodes detected in mountain gorillas. Both types of fecal samples, from night nests and from identified individuals, provided comparable information about the prevalence of anoplocephalid cestodes, although the analysis of samples collected from identified gorilla individuals showed significant intra-individual fluctuation of A. gorillae egg shedding within a short period. Therefore, multiple samples should be examined to obtain reliable data for wildlife health management programmes, especially when application of anthelmintic treatment is considered. However, while A. gorillae is apparently a common symbiont of mountain gorillas, it does not seem to impair the health of its host.

Published

2024

28. Mitochondrial-derived peptides: Antidiabetic functions and evolutionary perspectives.

Author

Kal, Satadeepa, Mahata, Sumana, Mahata, Sushil, and Jati, Suborno

Subjects

Diabetes, Humanin, MOTS-c, Mitochondrial peptides, and small humanin-like peptides, Male, Female, Pregnancy, Humans, Hypoglycemic Agents, Diabetes Mellitus, Type 1, Diabetes Mellitus, Type 2, Diabetes, Gestational, Thymine, Peptides, DNA, Mitochondrial, RNA, Ribosomal, Guanine

Abstract

Mitochondrial-derived peptides (MDPs) are a novel class of bioactive microproteins encoded by short open-reading frames (sORF) in mitochondrial DNA (mtDNA). Currently, three types of MDPs have been identified: Humanin (HN), MOTS-c (Mitochondrial ORF within Twelve S rRNA type-c), and SHLP1-6 (small Humanin-like peptide, 1 to 6). The 12 S ribosomal RNA (MT-RNR1) gene harbors the sequence for MOTS-c, whereas HN and SHLP1-6 are encoded by the 16 S ribosomal RNA (MT-RNR2) gene. Special genetic codes are used in mtDNA as compared to nuclear DNA: (i) ATA and ATT are used as start codons in addition to the standard start codon ATG; (ii) AGA and AGG are used as stop codons instead of coding for arginine; (iii) the standard stop codon UGA is used to code for tryptophan. While HN, SHLP6, and MOTS-c are encoded by the H (heavy owing to high guanine + thymine base composition)-strand of the mtDNA, SHLP1-5 are encoded by the L (light owing to less guanine + thymine base composition)-strand. MDPs attenuate disease pathology including Type 1 diabetes (T1D), Type 2 diabetes (T2D), gestational diabetes, Alzheimers disease (AD), cardiovascular diseases, prostate cancer, and macular degeneration. The current review will focus on the MDP regulation of T2D, T1D, and gestational diabetes along with an emphasis on the evolutionary pressures for conservation of the amino acid sequences of MDPs.

Published

2024

29. Phylogenetic distribution and experimental characterization of corrinoid production and dependence in soil bacterial isolates

Author

Alvarez-Aponte, Zoila I, Govindaraju, Alekhya M, Hallberg, Zachary F, Nicolas, Alexa M, Green, Myka A, Mok, Kenny C, Fonseca-García, Citlali, Coleman-Derr, Devin, Brodie, Eoin L, Carlson, Hans K, and Taga, Michiko E

Subjects

Microbiology, Biological Sciences, Ecology, Microbiome, Nutrition, Life on Land, Soil Microbiology, Phylogeny, Bacteria, Corrinoids, Microbiota, Soil, Vitamin B 12, RNA, Ribosomal, 16S, soil microbiome, bacteria, isolation, vitamin B12, corrinoid, cobamide, genomic predictions, metabolic interactions, model nutrients, Environmental Sciences, Technology, Biological sciences, Environmental sciences

Abstract

Soil microbial communities impact carbon sequestration and release, biogeochemical cycling, and agricultural yields. These global effects rely on metabolic interactions that modulate community composition and function. However, the physicochemical and taxonomic complexity of soil and the scarcity of available isolates for phenotypic testing are significant barriers to studying soil microbial interactions. Corrinoids-the vitamin B12 family of cofactors-are critical for microbial metabolism, yet they are synthesized by only a subset of microbiome members. Here, we evaluated corrinoid production and dependence in soil bacteria as a model to investigate the ecological roles of microorganisms involved in metabolic interactions. We isolated and characterized a taxonomically diverse collection of 161 soil bacteria from a single study site. Most corrinoid-dependent bacteria in the collection prefer B12 over other corrinoids, while all tested producers synthesize B12, indicating metabolic compatibility between producers and dependents in the collection. Furthermore, a subset of producers release B12 at levels sufficient to support dependent isolates in laboratory culture at estimated ratios of up to 1000 dependents per producer. Within our isolate collection, we did not find strong phylogenetic patterns in corrinoid production or dependence. Upon investigating trends in the phylogenetic dispersion of corrinoid metabolism categories across sequenced bacteria from various environments, we found that these traits are conserved in 47 out of 85 genera. Together, these phenotypic and genomic results provide evidence for corrinoid-based metabolic interactions among bacteria and provide a framework for the study of nutrient-sharing ecological interactions in microbial communities.

Published

2024

30. Novel order-level lineage of ammonia-oxidizing archaea widespread in marine and terrestrial environments

Author

Zheng, Yue, Wang, Baozhan, Gao, Ping, Yang, Yiyan, Xu, Bu, Su, Xiaoquan, Ning, Daliang, Tao, Qing, Li, Qian, Zhao, Feng, Wang, Dazhi, Zhang, Yao, Li, Meng, Winkler, Mari-K H, Ingalls, Anitra E, Zhou, Jizhong, Zhang, Chuanlun, Stahl, David A, Jiang, Jiandong, Martens-Habbena, Willm, and Qin, Wei

Subjects

Microbiology, Biological Sciences, Genetics, Life Below Water, Archaea, Ammonia, Ecosystem, RNA, Ribosomal, 16S, Oxidation-Reduction, Phylogeny, Soil, Soil Microbiology, Nitrosomirales, ammonia-oxidizing archaea, nitrification, subsurface, sponge, formate metabolism, nitrate reduction, Environmental Sciences, Technology, Biological sciences, Environmental sciences

Abstract

Ammonia-oxidizing archaea (AOA) are among the most ubiquitous and abundant archaea on Earth, widely distributed in marine, terrestrial, and geothermal ecosystems. However, the genomic diversity, biogeography, and evolutionary process of AOA populations in subsurface environments are vastly understudied compared to those in marine and soil systems. Here, we report a novel AOA order Candidatus (Ca.) Nitrosomirales which forms a sister lineage to the thermophilic Ca. Nitrosocaldales. Metagenomic and 16S rRNA gene-read mapping demonstrates the abundant presence of Nitrosomirales AOA in various groundwater environments and their widespread distribution across a range of geothermal, terrestrial, and marine habitats. Terrestrial Nitrosomirales AOA show the genetic capacity of using formate as a source of reductant and using nitrate as an alternative electron acceptor. Nitrosomirales AOA appear to have acquired key metabolic genes and operons from other mesophilic populations via horizontal gene transfer, including genes encoding urease, nitrite reductase, and V-type ATPase. The additional metabolic versatility conferred by acquired functions may have facilitated their radiation into a variety of subsurface, marine, and soil environments. We also provide evidence that each of the four AOA orders spans both marine and terrestrial habitats, which suggests a more complex evolutionary history for major AOA lineages than previously proposed. Together, these findings establish a robust phylogenomic framework of AOA and provide new insights into the ecology and adaptation of this globally abundant functional guild.

Published

2024

31. Thermotogota diversity and distribution patterns revealed in Auka and JaichMaa ja ag hydrothermal vent fields in the Pescadero Basin, Gulf of California.

Author

Peña-Salinas, Manet, Speth, Daan, Utter, Daniel, Spelz, Ronald, Lim, Sujung, Zierenberg, Robert, Caress, David, Núñez, Patricia, Vázquez, Roberto, and Orphan, Victoria

Subjects

16S rRNA, ASVs, Biogeography, Deep-sea biosphere, Microbial ecology, Thermophiles, Hydrothermal Vents, Geologic Sediments, RNA, Ribosomal, 16S, Biodiversity, Seawater, California, Bacteria

Abstract

Discovering new deep hydrothermal vent systems is one of the biggest challenges in ocean exploration. They are a unique window to elucidate the physical, geochemical, and biological processes that occur on the seafloor and are involved in the evolution of life on Earth. In this study, we present a molecular analysis of the microbial composition within the newly discovered hydrothermal vent field, JaichMaa ja ag, situated in the Southern Pescadero Basin within the Gulf of California. During the cruise expedition FK181031 in 2018, 33 sediment cores were collected from various sites within the Pescadero vent fields and processed for 16S rRNA amplicon sequence variants (ASVs) and geochemical analysis. Correlative analysis of the chemical composition of hydrothermal pore fluids and microbial abundances identified several sediment-associated phyla, including Thermotogota, that appear to be enriched in sediment horizons impacted by hydrothermal fluid flow. Comparative analysis of Thermotogota with the previously explored Auka hydrothermal vent field situated 2 km away displayed broad similarity between the two locations, although at finer scales (e.g., ASV level), there were notable differences that point to core-to-core and site-level factors revealing distinct patterns of distribution and abundance within these two sediment-hosted hydrothermal vent fields. These patterns are intricately linked to the specific physical and geochemical conditions defining each vent, illuminating the complexity of this unique deep ocean chemosynthetic ecosystem.

Published

2024

32. Fecal shedding of SARS-CoV-2 in infants born to SARS-CoV-2 positive mothers: a pilot study.

Author

Blaufus, Dylan, Kalanetra, Karen, Pesavento, Rosa, Garlapati, Pranav, Baikie, Brittany, Kuhn-Riordon, Kara, Underwood, Mark, and Taft, Diana

Subjects

Fecal shedding, Infant gut microbiome, SARS-CoV-2, Humans, Feces, COVID-19, Pilot Projects, Female, SARS-CoV-2, Virus Shedding, Gastrointestinal Microbiome, Pregnancy, Infant, Newborn, Infant, Male, Adult, RNA, Ribosomal, 16S, Pregnancy Complications, Infectious, Infectious Disease Transmission, Vertical, Mothers

Abstract

BACKGROUND: Fecal shedding of SARS-CoV-2 occurs during infection, particularly in pediatric populations. The gut microbiota are associated with resistance to enteric pathogens. COVID-19 is associated with alterations to the gut microbiome. We hypothesized that the gut microbiome of infants born to SARS-CoV-2+ mothers differs between infants with and without fecal shedding of the virus. METHODS: We enrolled 10 infants born to SARS-CoV-2+ mothers. We used qPCR on fecal RNA to test for SARS-CoV-2 and 16S rRNA gene sequencing of the V4 region to assess the gut microbiome. Infant SARS-CoV-2 status from nasal swabs was abstracted from medical records. RESULTS: Of the 10 included infants, nine were tested for SARS-CoV-2 by nasal swab with 1 testing positive. Four infants, including the nasal swab positive infant, had at least one sample with detectable levels of SARS-CoV-2 fecal shedding. Detection of both SARS-CoV-2 genes in feces was associated with increased gut alpha diversity compared to no detection by a linear mixed effects model (p

Published

2024

33. Cultivation of novel Atribacterota from oil well provides new insight into their diversity, ecology, and evolution in anoxic, carbon-rich environments

Author

Jiao, Jian-Yu, Ma, Shi-Chun, Salam, Nimaichand, Zhou, Zhuo, Lian, Zheng-Han, Fu, Li, Chen, Ying, Peng, Cheng-Hui, OuYang, Yu-Ting, Fan, Hui, Li, Ling, Yi, Yue, Zhang, Jing-Yi, Wang, Jing-Yuan, Liu, Lan, Gao, Lei, Oren, Aharon, Woyke, Tanja, Dodsworth, Jeremy A, Hedlund, Brian P, Li, Wen-Jun, and Cheng, Lei

Subjects

Microbiology, Biological Sciences, Ecology, Genetics, Phylogeny, Carbon, Oil and Gas Fields, RNA, Ribosomal, 16S, Genome, Bacterial, Alkanes, Atribacterota, Atribacteria, Phoenicimicrobiia, Pure culture, Enrichment, Wood-Ljungdahl pathway, Reductive glycine pathway, Oil reservoir, Carbohydrate fermentation, Hydrocarbon degradation, Medical Microbiology, Evolutionary biology

Abstract

BackgroundThe Atribacterota are widely distributed in the subsurface biosphere. Recently, the first Atribacterota isolate was described and the number of Atribacterota genome sequences retrieved from environmental samples has increased significantly; however, their diversity, physiology, ecology, and evolution remain poorly understood.ResultsWe report the isolation of the second member of Atribacterota, Thermatribacter velox gen. nov., sp. nov., within a new family Thermatribacteraceae fam. nov., and the short-term laboratory cultivation of a member of the JS1 lineage, Phoenicimicrobium oleiphilum HX-OS.bin.34TS, both from a terrestrial oil reservoir. Physiological and metatranscriptomics analyses showed that Thermatribacter velox B11T and Phoenicimicrobium oleiphilum HX-OS.bin.34TS ferment sugars and n-alkanes, respectively, producing H2, CO2, and acetate as common products. Comparative genomics showed that all members of the Atribacterota lack a complete Wood-Ljungdahl Pathway (WLP), but that the Reductive Glycine Pathway (RGP) is widespread, indicating that the RGP, rather than WLP, is a central hub in Atribacterota metabolism. Ancestral character state reconstructions and phylogenetic analyses showed that key genes encoding the RGP (fdhA, fhs, folD, glyA, gcvT, gcvPAB, pdhD) and other central functions were gained independently in the two classes, Atribacteria (OP9) and Phoenicimicrobiia (JS1), after which they were inherited vertically; these genes included fumarate-adding enzymes (faeA; Phoenicimicrobiia only), the CODH/ACS complex (acsABCDE), and diverse hydrogenases (NiFe group 3b, 4b and FeFe group A3, C). Finally, we present genome-resolved community metabolic models showing the central roles of Atribacteria (OP9) and Phoenicimicrobiia (JS1) in acetate- and hydrocarbon-rich environments.ConclusionOur findings expand the knowledge of the diversity, physiology, ecology, and evolution of the phylum Atribacterota. This study is a starting point for promoting more incisive studies of their syntrophic biology and may guide the rational design of strategies to cultivate them in the laboratory. Video Abstract.

Published

2024

34. Helicobacter pylori infection in infant rhesus macaque monkeys is associated with an altered lung and oral microbiome

Author

Siegel, Noah A, Jimenez, Monica T, Rocha, Clarissa Santos, Rolston, Matthew, Dandekar, Satya, Solnick, Jay V, and Miller, Lisa A

Subjects

Microbiology, Biological Sciences, Biomedical and Clinical Sciences, Digestive Diseases - (Peptic Ulcer), Pediatric, Microbiome, Genetics, Lung, Dental/Oral and Craniofacial Disease, Infectious Diseases, Digestive Diseases, Human Genome, Infection, Oral and gastrointestinal, Animals, Macaca mulatta, Helicobacter Infections, Helicobacter pylori, Mouth, Microbiota, RNA, Ribosomal, 16S, Male, Disease Models, Animal

Abstract

It is estimated that more than half of the world population has been infected with Helicobacter pylori. Most newly acquired H. pylori infections occur in children before 10 years of age. We hypothesized that early life H. pylori infection could influence the composition of the microbiome at mucosal sites distant to the stomach. To test this hypothesis, we utilized the infant rhesus macaque monkey as an animal model of natural H. pylori colonization to determine the impact of infection on the lung and oral microbiome during a window of postnatal development. From a cohort of 4-7 month-old monkeys, gastric biopsy cultures identified 44% of animals infected by H. pylori. 16S ribosomal RNA gene sequencing of lung washes and buccal swabs from animals showed distinct profiles for the lung and oral microbiome, independent of H. pylori infection. In order of relative abundance, the lung microbiome was dominated by the phyla Proteobacteria, Firmicutes, Bacteroidota, Fusobacteriota, Campilobacterota and Actinobacteriota while the oral microbiome was dominated by Proteobacteria, Firmicutes, Bacteroidota, and Fusobacteriota. In comparison to the oral cavity, the lung was composed of more genera and species that significantly differed by H. pylori status, with a total of 6 genera and species that were increased in H. pylori negative infant monkey lungs. Lung, but not plasma IL-8 concentration was also associated with gastric H. pylori load and lung microbial composition. We found the infant rhesus macaque monkey lung harbors a microbiome signature that is distinct from that of the oral cavity during postnatal development. Gastric H. pylori colonization and IL-8 protein were linked to the composition of microbial communities in the lung and oral cavity. Collectively, these findings provide insight into how H. pylori infection might contribute to the gut-lung axis during early childhood and modulate future respiratory health.

Published

2024

35. Ambient long-term exposure to organophosphorus pesticides and the human gut microbiome: an observational study

Author

Zhang, Keren, Paul, Kimberly, Jacobs, Jonathan P, Cockburn, Myles G, Bronstein, Jeff M, del Rosario, Irish, and Ritz, Beate

Subjects

Epidemiology, Public Health, Health Sciences, Clinical Research, Microbiome, Aging, Neurosciences, Endocrine Disruptors, Health Disparities, Climate-Related Exposures and Conditions, Genetics, Rural Health, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, Neurological, Oral and gastrointestinal, Life on Land, Aged, Humans, Bacteria, Gastrointestinal Microbiome, Microbiota, Organophosphorus Compounds, Parkinson Disease, Pesticides, RNA, Ribosomal, 16S, Organophosphorus pesticides, Gut microbiome, Predicted metagenome, Geographic information system, Public Health and Health Services, Toxicology, Public health

Abstract

BackgroundOrganophosphorus pesticides (OP) have been associated with various human health conditions. Animal experiments and in-vitro models suggested that OP may also affect the gut microbiota. We examined associations between ambient chronic exposure to OP and gut microbial changes in humans.MethodsWe recruited 190 participants from a community-based epidemiologic study of Parkinson's disease living in a region known for heavy agricultural pesticide use in California. Of these, 61% of participants had Parkinson's disease and their mean age was 72 years. Microbiome and predicted metagenome data were generated by 16S rRNA gene sequencing of fecal samples. Ambient long-term OP exposures were assessed using pesticide application records combined with residential addresses in a geographic information system. We examined gut microbiome differences due to OP exposures, specifically differences in microbial diversity based on the Shannon index and Bray-Curtis dissimilarities, and differential taxa abundance and predicted Metacyc pathway expression relying on regression models and adjusting for potential confounders.ResultsOP exposure was not associated with alpha or beta diversity of the gut microbiome. However, the predicted metagenome was sparser and less evenly expressed among those highly exposed to OP (p = 0.04). Additionally, we found that the abundance of two bacterial families, 22 genera, and the predicted expression of 34 Metacyc pathways were associated with long-term OP exposure. These pathways included perturbed processes related to cellular respiration, increased biosynthesis and degradation of compounds related to bacterial wall structure, increased biosynthesis of RNA/DNA precursors, and decreased synthesis of Vitamin B1 and B6.ConclusionIn support of previous animal studies and in-vitro findings, our results suggest that ambient chronic OP pesticide exposure alters gut microbiome composition and its predicted metabolism in humans.

Published

2024

36. Comparative genomics of a vertically transmitted thiotrophic bacterial ectosymbiont and its close free-living relative.

Author

Espada-Hinojosa, Salvador, Karthäuser, Clarissa, Srivastava, Abhishek, Schuster, Lukas, Winter, Teresa, de Oliveira, André, Horn, Matthias, Sievert, Stefan, Bright, Monika, and Schulz, Frederik

Subjects

Zoothamnium niveum, ectosymbiosis, low-complexity metagenome, sulphur-oxidizing bacteria, thiotrophy, Animals, Phylogeny, RNA, Ribosomal, 16S, Bacteria, Genomics, Symbiosis, Sulfur

Abstract

Thiotrophic symbioses between sulphur-oxidizing bacteria and various unicellular and metazoan eukaryotes are widespread in reducing marine environments. The giant colonial ciliate Zoothamnium niveum, however, is the only host of thioautotrophic symbionts that has been cultivated along with its symbiont, the vertically transmitted ectosymbiont Candidatus Thiobius zoothamnicola (short Thiobius). Because theoretical predictions posit a smaller genome in vertically transmitted endosymbionts compared to free-living relatives, we investigated whether this is true also for an ectosymbiont. We used metagenomics to recover the high-quality draft genome of this bacterial symbiont. For comparison we have also sequenced a closely related free-living cultured but not formally described strain Milos ODIII6 (short ODIII6). We then performed comparative genomics to assess the functional capabilities at gene, metabolic pathway and trait level. 16S rRNA gene trees and average amino acid identity confirmed the close phylogenetic relationship of both bacteria. Indeed, Thiobius has about a third smaller genome than its free-living relative ODIII6, with reduced metabolic capabilities and fewer functional traits. The functional capabilities of Thiobius were a subset of those of the more versatile ODIII6, which possessed additional genes for oxygen, sulphur and hydrogen utilization and for the acquisition of phosphorus illustrating features that may be adaptive for the unstable environmental conditions at hydrothermal vents. In contrast, Thiobius possesses genes potentially enabling it to utilize lactate and acetate heterotrophically, compounds that may be provided as byproducts by the host. The present study illustrates the effect of strict host-dependence of a bacterial ectosymbiont on genome evolution and host adaptation.

Published

2024

37. Changes in the Vaginal Microbiome During Pregnancy and the Postpartum Period in South African Women: a Longitudinal Study

Author

Li, Katherine T, Li, Fan, Jaspan, Heather, Nyemba, Dorothy, Myer, Landon, Aldrovandi, Grace, and Joseph-Davey, Dvora

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Public Health, Health Sciences, Prevention, Sexually Transmitted Infections, Infectious Diseases, Infection, Reproductive health and childbirth, Good Health and Well Being, Female, Pregnancy, Humans, Adult, Longitudinal Studies, South Africa, Vagina, Postpartum Period, Sexually Transmitted Diseases, Bacteria, HIV Infections, Microbiota, RNA, Ribosomal, 16S, Vaginal microbiome, Microbiome in pregnancy, Paediatrics and Reproductive Medicine, Obstetrics & Reproductive Medicine, Reproductive medicine, Midwifery

Abstract

Pregnant women in sub-Saharan Africa have high rates of maternal morbidity. There is interest in the impact of the vaginal microbiome on maternal health, including HIV and sexually transmitted infection (STI) acquisition. We characterized the vaginal microbiota of South African women ≥ 18 years with and without HIV in a longitudinal cohort over two visits during pregnancy and one visit postpartum. At each visit, we obtained HIV testing and self-collected vaginal swabs for point-of-care testing for STIs and microbiota sequencing. We categorized microbial communities and evaluated changes over pregnancy and associations with HIV status and STI diagnosis. Across 242 women (mean age 29, 44% living with HIV, 33% diagnosed with STIs), we identified four main community state types (CSTs): two lactobacillus-dominant CSTs (dominated by Lactobacillus crispatus and Lactobacillus iners respectively) and two diverse, non-lactobacillus-dominant CSTs (one dominated by Gardnerella vaginalis and one by diverse facultative anaerobes). From the first antenatal visit to the third trimester (24-36 weeks gestation), 60% of women in the Gardnerella-dominant CST shifted to lactobacillus-dominant CSTs. From the third trimester to postpartum (mean 17 days post-delivery), 80% of women in lactobacillus-dominant CSTs shifted to non-lactobacillus-dominant CSTs with a large proportion in the facultative anaerobe-dominant CST. Microbial composition differed by STI diagnosis (PERMANOVA R2 = 0.002, p = 0.004), and women diagnosed with an STI were more likely to be categorized as L. iners-dominant or Gardnerella-dominant CSTs. Overall, we found a shift toward lactobacillus dominance during pregnancy and the emergence of a distinct, highly diverse anaerobe-dominant microbiota profile in the postpartum period.

Published

2024

38. Uncommon pathogen misidentification of Herbaspirillum huttiense as Burkholderia cepacia in bacteremia: a case report.

Author

Wang, Qun, Cai, Xinjian, and Zhang, Li

Subjects

*ADENOCARCINOMA, *VITAL signs, *MICROBIAL sensitivity tests, *BACTEREMIA, *BURKHOLDERIA infections, *DRUG resistance in microorganisms, *CANCER patients, *CANCER chemotherapy, *GENE expression, *NUCLEIC acids, *GRAM-negative bacterial diseases, *LUNG cancer, *IMMUNOSUPPRESSION

Abstract

Herbaspirillum huttiense is an opportunistic pathogen associated with rare cases of bacteremia. In this case report, H huttiense was isolated from blood samples collected from an intravenous catheter (incubated for 20.8 hours) and a peripheral vein (incubated for 14.16 hours) of a lung adenocarcinoma patient. Positive blood culture bottles were subjected to smear preparation, and Gram staining and microscopic examination revealed the presence of gram-negative rods in both aerobic bottles. We used the VITEK MS automatic microbial mass spectrometry system, VITEK 2 Compact automatic microbial analysis system, and high-throughput nucleic acid sequencing for accurate identification of the isolate. It is noteworthy that although the VITEK 2 Compact identified the isolate as Burkholderia cepacia , confirmation through VITEK MS mass spectrometry and 16S ribosomal DNA (rDNA) sequencing identified it as H huttiense. Subsequently, antimicrobial susceptibility testing was performed using the broth microdilution method, following the guidelines for nonfermenting gram-negative bacilli provided by the Clinical and Laboratory Standards Institute. This case highlights the possibility of misidentification of H huttiense as B cepacia by VITEK 2 Compact in certain situations, emphasizing the importance of considering uncommon pathogens, such as H huttiense , in the context of bacteremia in cancer patients. [ABSTRACT FROM AUTHOR]

Published

2024

39. Molecular characterization of macrolide resistance in Haemophilus influenzae and Haemophilus parainfluenzae strains (2018–21).

Author

Cadenas-Jiménez, Irene, Saiz-Escobedo, Lucía, Carrera-Salinas, Anna, Camprubí-Márquez, Xenia, Calvo-Silveria, Sara, Camps-Massa, Paula, Berbel, Dàmaris, Tubau, Fe, Santos, Salud, Domínguez, M Angeles, González-Díaz, Aida, Ardanuy, Carmen, and Martí, Sara

Subjects

*HAEMOPHILUS influenzae, *WHOLE genome sequencing, *MICROBIAL sensitivity tests, *RIBOSOMAL RNA, *DRUG resistance in microorganisms

Abstract

Objectives This study aimed to explore the prevalence of macrolide resistance and the underlying resistance mechanisms in Haemophilus influenzae (n  = 2556) and Haemophilus parainfluenzae (n  = 510) collected between 2018 and 2021 from Bellvitge University Hospital, Spain. Methods Antimicrobial susceptibility was tested by microdilution. Whole-genome sequencing was performed using Illumina MiSeq and Oxford Nanopore technologies, and sequences were examined for macrolide resistance determinants and mobile genetic structures. Results Macrolide resistance was detected in 67 H. influenzae (2.6%) and 52 (10.2%) H. parainfluenzae strains and associated with resistance to other antimicrobials (co-trimoxazole, chloramphenicol, tetracycline). Differences in macrolide resistance existed between the two species. Acquired resistance genes were more prevalent in H. parainfluenzae (35/52; 67.3%) than in H. influenzae (12/67; 17.9%). Gene mutations and amino acid substitutions were more common in H. influenzae (57/67; 85%) than in H. parainfluenzae (16/52; 30.8%). Substitutions in L22 and in 23S rRNA were only detected in H. influenzae (34.3% and 29.0%, respectively), while substitutions in L4 and AcrAB/AcrR were observed in both species. The MEGA element was identified in 35 (67.3%) H. parainfluenzae strains, five located in an integrative and conjugative element (ICE); by contrast, 11 (16.4%) H. influenzae strains contained the MEGA element (all in an ICE). A new ICE HpaHUB8 was described in H. parainfluenzae. Conclusions Macrolide resistance was higher in H. parainfluenzae than in H. influenzae , with differences in the underlying mechanisms. H. parainfluenzae exhibits co-resistance to other antimicrobials, often leading to an extensively drug-resistant phenotype. This highlights the importance of conducting antimicrobial resistance surveillance. [ABSTRACT FROM AUTHOR]

Published

2024

40. Conserved, yet disruption-prone, gut microbiomes in neotropical bumblebees

Author

Villabona, Nickole, Moran, Nancy, Hammer, Tobin, and Reyes, Alejandro

Subjects

Microbiology, Biological Sciences, Bees, Animals, Gastrointestinal Microbiome, RNA, Ribosomal, 16S, Bacteria, Microbiota, Ecology, Bombus, symbiosis, microbiota, bacteria, pollinators, Neotropics, bees, Immunology

Abstract

ImportanceSocial bees are an important model for the ecology and evolution of gut microbiomes. These bees harbor ancient, specific, and beneficial gut microbiomes and are crucial pollinators. However, most of the research has concentrated on managed honeybees and bumblebees in the temperate zone. Here we used 16S rRNA gene sequencing to characterize gut microbiomes in wild neotropical bumblebee communities from Colombia. We also analyzed drivers of microbiome structure across our data and previously published data from temperate bumblebees. Our results show that lineages of neotropical bumblebees not only retained their ancient gut bacterial symbionts during dispersal from North America but also are prone to major disruption, a shift that is strongly associated with parasite infection. Finally, we also found that microbiomes are much more strongly structured by host phylogeny than by geography, despite the very different environmental conditions and plant communities in the two regions.

Published

2023

41. The effects of host ecology and phylogeny on gut microbiota (non)parallelism across birds and mammals.

Author

Härer, Andreas and Rennison, Diana

Subjects

16S rRNA gene sequencing, gut microbiome, multivariate vector analysis, parallel evolution, trophic ecology, vertebrates, Animals, Phylogeny, Gastrointestinal Microbiome, RNA, Ribosomal, 16S, Mammals, Birds

Abstract

What are the roles of determinism and contingency in evolution? The paleontologist and evolutionary biologist Stephen J. Gould raised this question in his famous thought experiment of replaying lifes tape. Settings where independent lineages have repeatedly adapted to similar ecological niches (i.e., parallel evolution) are well suited to address this question. Here, we quantified whether repeated ecological shifts across 53 mammalian and 50 avian host species are associated with parallel gut microbiota changes. Our results indicate that parallel shifts in host diet are associated with greater gut microbiota parallelism (i.e., more deterministic). While further research will be necessary to obtain a comprehensive picture of the circumstances under which deterministic gut microbiota changes might be expected, our study can be instrumental in motivating the use of more quantitative methods in microbiota research. This, in turn, can help us better understand microbiota dynamics during adaptive evolution of their hosts.

Published

2023

42. Antiquaquibacter oligotrophicus gen. nov., sp. nov., a novel oligotrophic bacterium from groundwater.

Author

Toumi, Marwene, Whitman, William B, Kyrpides, Nikos C, Woyke, Tanja, Wolf, Jacqueline, Neumann-Schaal, Meina, Abbaszade, Gorkhmaz, Károly, Bóka, and Tóth, Erika

Subjects

Microbiology, Biological Sciences, Genetics, Phylogeny, RNA, Ribosomal, 16S, Base Composition, Fatty Acids, Sequence Analysis, DNA, DNA, Bacterial, Bacterial Typing Techniques, Bacteria, Actinomycetales, Amino Acids, Groundwater, Antiquaquibacter oligotrophicus, Microbacteriaceae, polyphasic description., polyphasic description, Evolutionary Biology, Medical Microbiology, Evolutionary biology

Abstract

In this study, a Gram-stain-positive, non-motile, oxidase- and catalase-negative, rod-shaped, bacterial strain (SG_E_30_P1T) that formed light yellow colonies was isolated from a groundwater sample of Sztaravoda spring, Hungary. Based on 16S rRNA phylogenetic and phylogenomic analyses, the strain was found to form a distinct linage within the family Microbacteriaceae. Its closest relatives in terms of near full-length 16S rRNA gene sequences are Salinibacterium hongtaonis MH299814 (97.72 % sequence similarity) and Leifsonia psychrotolerans GQ406810 (97.57 %). The novel strain grows optimally at 20-28 °C, at neutral pH and in the presence of NaCl (1-2 w/v%). Strain SG_E_30_P1T contains MK-7 and B-type peptidoglycan with diaminobutyrate as the diagnostic amino acid. The major cellular fatty acids are anteiso-C15 : 0, iso-C16 : 0 and iso-C14 : 0, and the polar lipid profile is composed of diphosphatidylglycerol and phosphatidylglycerol, as well as an unidentified aminoglycolipid, aminophospholipid and some unidentified phospholipids. The assembled draft genome is a contig with a total length of 2 897 968 bp and a DNA G+C content of 65.5 mol%. Amino acid identity values with it closest relatives with sequenced genomes of

Published

2023

43. The protist Aurantiochytrium has universal subtelomeric rDNAs and is a host for mirusviruses

Author

Collier, Jackie L, Rest, Joshua S, Gallot-Lavallée, Lucie, Lavington, Erik, Kuo, Alan, Jenkins, Jerry, Plott, Chris, Pangilinan, Jasmyn, Daum, Chris, Grigoriev, Igor V, Filloramo, Gina V, Novák Vanclová, Anna MG, and Archibald, John M

Subjects

Microbiology, Biological Sciences, Genetics, 2.2 Factors relating to the physical environment, Life Below Water, DNA, Ribosomal, Viruses, Genome, Heterochromatin, Eukaryota, Telomere, Phylogeny, LORE-TEARS, duplodnaviria, endogenous viruses, host-virus co-evolution, labyrinthulomycetes, long repeated-telomere and rDNA spacers, protist genome assembly, subtelomeric rDNAs, thraustochytrids, varidnaviria, viral episome, Medical and Health Sciences, Psychology and Cognitive Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences, Psychology

Abstract

Viruses are the most abundant biological entities in the world's oceans, where they play important ecological and biogeochemical roles. Metagenomics is revealing new groups of eukaryotic viruses, although disconnected from known hosts. Among these are the recently described mirusviruses, which share some similarities with herpesviruses.1 50 years ago, "herpes-type" viral particles2 were found in a thraustochytrid member of the labyrinthulomycetes, a diverse group of abundant and ecologically important marine eukaryotes,3,4 but could not be further characterized by methods then available. Long-read sequencing has allowed us to connect the biology of mirusviruses and thraustochytrids. We sequenced the genome of the genetically tractable model thraustochytrid Aurantiochytrium limacinum ATCC MYA-1381 and found that its 26 linear chromosomes have an extraordinary configuration. Subtelomeric ribosomal DNAs (rDNAs) found at all chromosome ends are interspersed with long repeated sequence elements denoted as long repeated-telomere and rDNA spacers (LORE-TEARS). We identified two genomic elements that are related to mirusvirus genomes. The first is a ∼300-kbp episome (circular element 1 [CE1]) present at a high copy number. Strikingly, the second, distinct, mirusvirus-like element is integrated between two sets of rDNAs and LORE-TEARS at the left end of chromosome 15 (LE-Chr15). Similar to metagenomically derived mirusviruses, these putative A. limacinum mirusviruses have a virion module related to that of herpesviruses along with an informational module related to nucleocytoplasmic large DNA viruses (NCLDVs). CE1 and LE-Chr15 bear striking similarities to episomal and endogenous latent forms of herpesviruses, respectively, and open new avenues of research into marine virus-host interactions.

Published

2023

44. Bacterial genome size and gene functional diversity negatively correlate with taxonomic diversity along a pH gradient.

Author

Wang, Cong, Yu, Qing-Yi, Ji, Niu-Niu, Zheng, Yong, Guo, Liang-Dong, Gao, Cheng, and Taylor, John

Subjects

Ecosystem, Biodiversity, RNA, Ribosomal, 16S, Genome Size, Proton-Motive Force, Bacteria, Soil, Genome, Bacterial, Soil Microbiology

Abstract

Bacterial gene repertoires reflect adaptive strategies, contribute to ecosystem functioning and are limited by genome size. However, gene functional diversity does not necessarily correlate with taxonomic diversity because average genome size may vary by community. Here, we analyse gene functional diversity (by shotgun metagenomics) and taxonomic diversity (by 16S rRNA gene amplicon sequencing) to investigate soil bacterial communities along a natural pH gradient in 12 tropical, subtropical, and temperate forests. We find that bacterial average genome size and gene functional diversity decrease, whereas taxonomic diversity increases, as soil pH rises from acid to neutral; as a result, bacterial taxonomic and functional diversity are negatively correlated. The gene repertoire of acid-adapted oligotrophs is enriched in functions of signal transduction, cell motility, secretion system, and degradation of complex compounds, while that of neutral pH-adapted copiotrophs is enriched in functions of energy metabolism and membrane transport. Our results indicate that a mismatch between taxonomic and functional diversity can arise when environmental factors (such as pH) select for adaptive strategies that affect genome size distributions.

Published

2023

45. Candidatus Kirkpatrickella diaphorinae gen. nov., sp. nov., an uncultured endosymbiont identified in a population of Diaphorina citri from Hawaii.

Author

Henry, Elizabeth, Carlson, Curtis R, and Kuo, Yen-Wen

Subjects

Microbiology, Biological Sciences, Ecology, Genetics, Biotechnology, Animals, Symbiosis, Hawaii, RNA, Ribosomal, 16S, Phylogeny, DNA, Bacterial, Sequence Analysis, DNA, Bacterial Typing Techniques, Base Composition, Fatty Acids, Bacteria, Hemiptera, Citrus, Diaphorina citri, bacterial symbiont, endosymbiont, Evolutionary Biology, Medical Microbiology, Evolutionary biology

Abstract

Diaphorina citri is the hemipteran pest and vector of a devastating bacterial pathogen of citrus worldwide. In addition to the two core bacterial endosymbionts of D. citri, Candidatus Carsonella ruddii and Candidatus Profftella armatura, the genome of a novel endosymbiont and as of yet undescribed microbe was discovered in a Hawaiian D. citri population through deep sequencing of multiple D. citri populations. Found to be closely related to the genus Asaia in the family Acetobacteraceae by 16S rRNA gene sequence analysis, it forms a sister clade along with other insect-associated 16S rRNA gene sequences from uncultured bacterium found associated with Aedes koreicus and Sogatella furcifera. Multilocus sequence analysis confirmed the phylogenetic placement sister to the Asaia clade. Despite the culturable Asaia clade being the closest phylogenetic neighbour, attempts to culture this newly identified bacterial endosymbiont were unsuccessful. On the basis of these distinct genetic differences, the novel endosymbiont is proposed to be classified into a candidate genus and species 'Candidatus Kirkpatrickella diaphorinae'. The full genome was deposited in GenBank (accession number CP107052; prokaryotic 16S rRNA OP600170).

Published

2023

46. Genetic hypogonadal mouse model reveals niche-specific influence of reproductive axis and sex on intestinal microbial communities.

Author

Sisk-Hackworth, Laura, Brown, Jada, Sau, Lillian, Levine, Andrew, Tam, Lai, Ramesh, Aishwarya, Shah, Reeya, Kelley-Thackray, Evelyn, Wang, Sophia, Nguyen, Anita, Kelley, Scott, and Thackray, Varykina

Subjects

Humans, Animals, Female, Male, Mice, RNA, Ribosomal, 16S, Microbiota, Gastrointestinal Microbiome, Feces, Ileum, Bacteria

Abstract

BACKGROUND: The gut microbiome has been linked to many diseases with sex bias including autoimmune, metabolic, neurological, and reproductive disorders. While numerous studies report sex differences in fecal microbial communities, the role of the reproductive axis in this differentiation is unclear and it is unknown how sex differentiation affects microbial diversity in specific regions of the small and large intestine. METHODS: We used a genetic hypogonadal mouse model that does not produce sex steroids or go through puberty to investigate how sex and the reproductive axis impact bacterial diversity within the intestine. Using 16S rRNA gene sequencing, we analyzed alpha and beta diversity and taxonomic composition of fecal and intestinal communities from the lumen and mucosa of the duodenum, ileum, and cecum from adult female (n = 20) and male (n = 20) wild-type mice and female (n = 17) and male (n = 20) hypogonadal mice. RESULTS: Both sex and reproductive axis inactivation altered bacterial composition in an intestinal section and niche-specific manner. Hypogonadism was significantly associated with bacteria from the Bacteroidaceae, Eggerthellaceae, Muribaculaceae, and Rikenellaceae families, which have genes for bile acid metabolism and mucin degradation. Microbial balances between males and females and between hypogonadal and wild-type mice were also intestinal section-specific. In addition, we identified 3 bacterial genera (Escherichia Shigella, Lachnoclostridium, and Eggerthellaceae genus) with higher abundance in wild-type female mice throughout the intestinal tract compared to both wild-type male and hypogonadal female mice, indicating that activation of the reproductive axis leads to female-specific differentiation of the gut microbiome. Our results also implicated factors independent of the reproductive axis (i.e., sex chromosomes) in shaping sex differences in intestinal communities. Additionally, our detailed profile of intestinal communities showed that fecal samples do not reflect bacterial diversity in the small intestine. CONCLUSIONS: Our results indicate that sex differences in the gut microbiome are intestinal niche-specific and that sampling feces or the large intestine may miss significant sex effects in the small intestine. These results strongly support the need to consider both sex and reproductive status when studying the gut microbiome and while developing microbial-based therapies.

Published

2023

47. Conservation of beneficial microbes between the rhizosphere and the cyanosphere

Author

Zheng, Qing, Hu, Yuntao, Kosina, Suzanne M, Van Goethem, Marc W, Tringe, Susannah G, Bowen, Benjamin P, and Northen, Trent R

Subjects

Microbiology, Climate Change Impacts and Adaptation, Biological Sciences, Environmental Sciences, Rhizosphere, RNA, Ribosomal, 16S, Retrospective Studies, Biomass, Plants, Soil, Soil Microbiology, biocrusts, Brachypodium distachyon, cyanosphere, exometabolomics, microbiome recruitment, Microcoleus vaginatus, plant growth-promoting bacteria, rhizosphere, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology, Climate change impacts and adaptation, Ecological applications

Abstract

Biocrusts are phototroph-driven communities inhabiting arid soil surfaces. Like plants, most photoautotrophs (largely cyanobacteria) in biocrusts are thought to exchange fixed carbon for essential nutrients like nitrogen with cyanosphere bacteria. Here, we aim to compare beneficial interactions in rhizosphere and cyanosphere environments, including finding growth-promoting strains for hosts from both environments. To examine this, we performed a retrospective analysis of 16S rRNA gene sequencing datasets, host-microbe co-culture experiments between biocrust communities/biocrust isolates and a model grass (Brachypodium distachyon) or a dominant biocrust cyanobacterium (Microcoleus vaginatus), and metabolomic analysis. All 18 microbial phyla in the cyanosphere were also present in the rhizosphere, with additional 17 phyla uniquely found in the rhizosphere. The biocrust microbes promoted the growth of the model grass, and three biocrust isolates (Bosea sp._L1B56, Pseudarthrobacter sp._L1D14 and Pseudarthrobacter picheli_L1D33) significantly promoted the growth of both hosts. Moreover, pantothenic acid was produced by Pseudarthrobacter sp._L1D14 when grown on B. distachyon exudates, and supplementation of plant growth medium with this metabolite increased B. distachyon biomass by over 60%. These findings suggest that cyanobacteria and other diverse photoautotrophic hosts can be a source for new plant growth-promoting microbes and metabolites.

Published

2023

48. MaLiAmPi enables generalizable and taxonomy-independent microbiome features from technically diverse 16S-based microbiome studies

Author

Minot, Samuel S, Garb, Bailey, Roldan, Alennie, Tang, Alice S, Oskotsky, Tomiko T, Rosenthal, Christopher, Hoffman, Noah G, Sirota, Marina, and Golob, Jonathan L

Subjects

Microbiology, Biological Sciences, Microbiome, Human Genome, Genetics, Phylogeny, RNA, Ribosomal, 16S, Microbiota, Machine Learning, 16S, CP: Microbiology, CP: Systems biology, artificial intelligence, association, composition, machine learning, microbiome, phylogenetic placement, phylotype

Abstract

For studies using microbiome data, the ability to robustly combine data from technically and biologically distinct microbiome studies is a crucial means of supporting more robust and clinically relevant inferences. Formidable technical challenges arise when attempting to combine data from technically diverse 16S rRNA gene variable region amplicon sequencing (16S) studies. Closed operational taxonomic units and taxonomy are criticized as being heavily dependent upon reference sets and with limited precision relative to the underlying biology. Phylogenetic placement has been demonstrated to be a promising taxonomy-free manner of harmonizing microbiome data, but it has lacked a validated count-based feature suitable for use in machine learning and association studies. Here we introduce a phylogenetic-placement-based, taxonomy-independent, compositional feature of microbiota: phylotypes. Phylotypes were predictive of clinical outcomes such as obesity or pre-term birth on technically diverse independent validation sets harmonized post hoc. Thus, phylotypes enable the rigorous cross-validation of 16S-based clinical prognostic models and associative microbiome studies.

Published

2023

49. Geographical survey of the mycobiome and microbiome of Southern California glassy-winged sharpshooters

Author

Ettinger, Cassandra L, Wu-Woods, Jessica, Kurbessoian, Tania, Brown, Dylan J, de Souza Pacheco, Inaiara, Vindiola, Beatriz G, Walling, Linda L, Atkinson, Peter W, Byrne, Frank J, Redak, Richard, and Stajich, Jason E

Subjects

Microbiology, Biological Sciences, Aetiology, 2.2 Factors relating to the physical environment, Infection, Animals, Mycobiome, RNA, Ribosomal, 16S, Microbiota, Hemiptera, Geography, Homalodisca vitripennis, fungi, bacteria, microbial ecology, imidacloprid resistance, biogeography, captive, wild-caught, insect, captivity, host insecticide resistance status, Immunology

Abstract

The glassy-winged sharpshooter, Homalodisca vitripennis Germar, is an invasive xylem-feeding leafhopper with a devastating economic impact on California agriculture through transmission of the plant pathogen, Xylella fastidiosa. While studies have focused on X. fastidiosa or known symbionts of H. vitripennis, little work has been done at the scale of the microbiome (the bacterial community) or mycobiome (the fungal community). Here, we characterize the mycobiome and the microbiome of H. vitripennis across Southern California and explore correlations with captivity and host insecticide resistance status. Using high-throughput sequencing of the ribosomal internal transcribed spacer 1 region and the 16S rRNA gene to profile the mycobiome and microbiome, respectively, we found that while the H. vitripennis mycobiome significantly varied across Southern California, the microbiome did not. We also observed a significant difference in both the mycobiome and microbiome between captive and wild H. vitripennis. Finally, we found that the mycobiome, but not the microbiome, was correlated with insecticide resistance status in wild H. vitripennis. This study serves as a foundational look at the H. vitripennis mycobiome and microbiome across Southern California. Future work should explore the putative link between microbes and insecticide resistance status and investigate whether microbial communities should be considered in H. vitripennis management practices. IMPORTANCE The glassy-winged sharpshooter is an invasive leafhopper that feeds on the xylem of plants and transmits the devastating pathogen, Xylella fastidiosa, resulting in significant economic damage to California's agricultural system. While studies have focused on this pathogen or obligate symbionts of the glassy-winged sharpshooter, there is limited knowledge of the bacterial and fungal communities that make up its microbiome and mycobiome. To address this knowledge gap, we explored the composition of the mycobiome and the microbiome of the glassy-winged sharpshooter across Southern California and identified differences associated with geography, captivity, and host insecticide resistance status. Understanding sources of variation in the microbial communities associated with the glassy-winged sharpshooter is an important consideration for developing management strategies to control this invasive insect. This study is a first step toward understanding the role microbes may play in the glassy-winged sharpshooter's resistance to insecticides.

Published

2023

50. Association of Subjective and Objective Measures of Sleep With Gut Microbiota Composition and Diversity in Older Men: The Osteoporotic Fractures in Men Study.

Author

Estaki, Mehrbod, Langsetmo, Lisa, Shardell, Michelle, Mischel, Anna, Jiang, Lingjing, Zhong, Yuan, Kaufmann, Christopher, Knight, Rob, Stone, Katie, and Kado, Deborah

Subjects

Biomarkers, Epidemiology, Metabolism, Sleep, Male, Humans, Aged, Aged, 80 and over, Gastrointestinal Microbiome, Phylogeny, Osteoporotic Fractures, RNA, Ribosomal, 16S, Sleep, Butyrates

Abstract

BACKGROUND: Growing evidence suggests bidirectional links between gut microbiota and sleep quality as shared contributors to health. Little is known about the relationship between microbiota and sleep among older persons. METHODS: We used 16S rRNA sequencing to characterize stool microbiota among men (n = 606, mean [standard deviation] age = 83.9 [3.8]) enrolled in the Osteoporotic Fractures in Men (MrOS) study from 2014 to 2016. Sleep was assessed concurrently by a questionnaire (Pittsburgh Sleep Quality index [PSQI]), and activity monitor to examine timing (acrophase) and regularity of patterns (F-statistic). Alpha diversity was measured using Faiths phylogenetic diversity (PD). Beta diversity was calculated with robust Aitchison distance with matrix completion (RPCA) and phylogenetic-RPCA (PRPCA). Their association with sleep variables was tested with partial distance-based redundancy analysis (dbRDA). Predictive-ratio biomarkers associated with sleep measurements were identified with CoDaCoRe. RESULTS: In unadjusted analyses, men with poor sleep (PSQI >5) tended to have lower alpha diversity compared to men with normal sleep (Faiths PD, beta = -0.15; 95% confidence interval [CI]: -0.30 to 0.01, p = .06). Sleep regularity was significantly associated with RPCA and PRPCA, even after adjusting for site, batch, age, ethnicity, body mass index, diabetes, antidepressant and sleep medication use, and health behaviors (RPCA/PRPCA dbRDA; p = .033/.002). In taxonomic analysis, ratios of 7:6 bacteria for better regularity (p = .0004) and 4:7 for worse self-reported sleep (p = .005) were differentially abundant: some butyrate-producing bacteria were associated with better sleep characteristics. CONCLUSIONS: Subjective and objective indicators of sleep quality suggest that older men with better sleep patterns are more likely to harbor butyrate-producing bacteria associated with better health.

Published

2023