31 results on '"Julia K. Copeland"'
Search Results
2. Systematic profiling of the chicken gut microbiome reveals dietary supplementation with antibiotics alters expression of multiple microbial pathways with minimal impact on community structure
- Author
-
Angela Zou, Kerry Nadeau, Xuejian Xiong, Pauline W. Wang, Julia K. Copeland, Jee Yeon Lee, James St. Pierre, Maxine Ty, Billy Taj, John H. Brumell, David S. Guttman, Shayan Sharif, Doug Korver, and John Parkinson
- Subjects
Microbial ecology ,QR100-130 - Abstract
Abstract Background The emergence of antimicrobial resistance is a major threat to global health and has placed pressure on the livestock industry to eliminate the use of antibiotic growth promotants (AGPs) as feed additives. To mitigate their removal, efficacious alternatives are required. AGPs are thought to operate through modulating the gut microbiome to limit opportunities for colonization by pathogens, increase nutrient utilization, and reduce inflammation. However, little is known concerning the underlying mechanisms. Previous studies investigating the effects of AGPs on the poultry gut microbiome have largely focused on 16S rDNA surveys based on a single gastrointestinal (GI) site, diet, and/or timepoint, resulting in an inconsistent view of their impact on community composition. Methods In this study, we perform a systematic investigation of both the composition and function of the chicken gut microbiome, in response to AGPs. Birds were raised under two different diets and AGP treatments, and 16S rDNA surveys applied to six GI sites sampled at three key timepoints of the poultry life cycle. Functional investigations were performed through metatranscriptomics analyses and metabolomics. Results Our study reveals a more nuanced view of the impact of AGPs, dependent on age of bird, diet, and intestinal site sampled. Although AGPs have a limited impact on taxonomic abundances, they do appear to redefine influential taxa that may promote the exclusion of other taxa. Microbiome expression profiles further reveal a complex landscape in both the expression and taxonomic representation of multiple pathways including cell wall biogenesis, antimicrobial resistance, and several involved in energy, amino acid, and nucleotide metabolism. Many AGP-induced changes in metabolic enzyme expression likely serve to redirect metabolic flux with the potential to regulate bacterial growth or produce metabolites that impact the host. Conclusions As alternative feed additives are developed to mimic the action of AGPs, our study highlights the need to ensure such alternatives result in functional changes that are consistent with site-, age-, and diet-associated taxa. The genes and pathways identified in this study are therefore expected to drive future studies, applying tools such as community-based metabolic modeling, focusing on the mechanistic impact of different dietary regimes on the microbiome. Consequently, the data generated in this study will be crucial for the development of next-generation feed additives targeting gut health and poultry production. Video Abstract
- Published
- 2022
- Full Text
- View/download PDF
3. Examining the relationship between maternal body size, gestational glucose tolerance status, mode of delivery and ethnicity on human milk microbiota at three months post-partum
- Author
-
Lauren LeMay-Nedjelski, James Butcher, Sylvia H. Ley, Michelle R. Asbury, Anthony J. Hanley, Alex Kiss, Sharon Unger, Julia K. Copeland, Pauline W. Wang, Bernard Zinman, Alain Stintzi, and Deborah L. O’Connor
- Subjects
Human milk ,Microbiota ,Body mass index ,Gestational diabetes ,Impaired glucose tolerance ,Mode of delivery ,Microbiology ,QR1-502 - Abstract
Abstract Background Few studies have examined how maternal body mass index (BMI), mode of delivery and ethnicity affect the microbial composition of human milk and none have examined associations with maternal metabolic status. Given the high prevalence of maternal adiposity and impaired glucose metabolism, we systematically investigated the associations between these maternal factors in women ≥20 years and milk microbial composition and predicted functionality by V4-16S ribosomal RNA gene sequencing (NCT01405547; https://clinicaltrials.gov/ct2/show/NCT01405547 ). Demographic data, weight, height, and a 3-h oral glucose tolerance test were gathered at 30 (95% CI: 25–33) weeks gestation, and milk samples were collected at 3 months post-partum (n = 113). Results Multivariable linear regression analyses demonstrated no significant associations between maternal characteristics (maternal BMI [pre-pregnancy, 3 months post-partum], glucose tolerance, mode of delivery and ethnicity) and milk microbiota alpha-diversity; however, pre-pregnancy BMI was associated with human milk microbiota beta-diversity (Bray-Curtis R2 = 0.037). Women with a pre-pregnancy BMI > 30 kg/m2 (obese) had a greater incidence of Bacteroidetes (incidence rate ratio [IRR]: 3.70 [95% CI: 1.61–8.48]) and a reduced incidence of Proteobacteria (0.62 [0.43–0.90]) in their milk, compared to women with an overweight BMI (25.0–29.9 kg/m2) as assessed by multivariable Poisson regression. An increased incidence of Gemella was observed among mothers with gestational diabetes who had an overweight BMI versus healthy range BMI (5.96 [1.85–19.21]). An increased incidence of Gemella was also observed among mothers with impaired glucose tolerance with an obese BMI versus mothers with a healthy range BMI (4.04 [1.63–10.01]). An increased incidence of Brevundimonas (16.70 [5.99–46.57]) was found in the milk of women who underwent an unscheduled C-section versus vaginal delivery. Lastly, functional gene inference demonstrated that pre-pregnancy obesity was associated with an increased abundance of genes encoding for the biosynthesis of secondary metabolites pathway in milk (coefficient = 0.0024, P FDR
- Published
- 2020
- Full Text
- View/download PDF
4. Gut-associated IgA+ immune cells regulate obesity-related insulin resistance
- Author
-
Helen Luck, Saad Khan, Justin H. Kim, Julia K. Copeland, Xavier S. Revelo, Sue Tsai, Mainak Chakraborty, Kathleen Cheng, Yi Tao Chan, Mark K. Nøhr, Xavier Clemente-Casares, Marie-Christine Perry, Magar Ghazarian, Helena Lei, Yi-Hsuan Lin, Bryan Coburn, Allan Okrainec, Timothy Jackson, Susan Poutanen, Herbert Gaisano, Johane P. Allard, David S. Guttman, Margaret E. Conner, Shawn Winer, and Daniel A. Winer
- Subjects
Science - Abstract
The effect of diet-induced obesity on intestinal B cell populations is not well understood despite emerging evidence of a critical role for the intestinal immune system in contributing to insulin resistance. Here, the authors show important functions of IgA in regulating metabolic disease and for intestinal immunity in modulating systemic glucose metabolism.
- Published
- 2019
- Full Text
- View/download PDF
5. The Impact of Migration on the Gut Metagenome of South Asian Canadians
- Author
-
Julia K. Copeland, Gary Chao, Shelley Vanderhout, Erica Acton, Pauline W. Wang, Eric I. Benchimol, Ahmed El-Sohemy, Ken Croitoru, Jennifer L. Gommerman, David S. Guttman, and the GEMINI Research Team
- Subjects
gut metagenome ,immune-mediated inflammatory disease ,immigration ,scfa ,prevotella ,dialister ,Diseases of the digestive system. Gastroenterology ,RC799-869 - Abstract
South Asian (SA) Canadian immigrants have a higher risk of developing certain immune-mediated inflammatory diseases compared to non-migrant SAs. We sought to investigate the effect of migration on the gut metagenome and to identify microbiological associations between migration and conditions that may influence the development of immune-mediated inflammatory diseases. Metagenomic analysis of 58 first-generation (GEN1) SA immigrants and 38 unrelated Canadian born children-of-immigrants (GEN2) determined that the time lived in Canada was associated with continued changes in gut microbial communities. Migration of GEN1 to Canada early in life results in a gut community with similarities to GEN2 SA Canadians and non-SA North Americans. Conversely, GEN1 immigrants who arrived recently to Canada exhibited pronounced differences from GEN2, while displaying microbial similarities to a non-migrating SA cohort. Multivariate analysis identified that community composition was primarily influenced by high abundance taxa. Prevotella copri dominated in GEN1 and non-migrant SAs. Clostridia and functionally related Bacteroidia spp. replaced P. copri dominance over generations in Canada. Mutually exclusive Dialister species occurred at differing relative abundances over time and generations in Canada. This shift in species composition is accompanied by a change in genes associated with carbohydrate utilization and short-chain fatty acid production. Total energy derived from carbohydrates compared to protein consumption was significantly higher for GEN1 recent immigrants, which may influence the functional requirements of the gut community. This study demonstrates the associations between migration and the gut microbiome, which may be further associated with the altered risk of immune-mediated inflammatory diseases observed for SA Canadians.
- Published
- 2021
- Full Text
- View/download PDF
6. Assessment of Inter-Laboratory Variation in the Characterization and Analysis of the Mucosal Microbiota in Crohn’s Disease and Ulcerative Colitis
- Author
-
Jake C. Szamosi, Jessica D. Forbes, Julia K. Copeland, Natalie C. Knox, Shahrokh Shekarriz, Laura Rossi, Morag Graham, Christine Bonner, David S. Guttman, Gary Van Domselaar, Michael G. Surette, and Charles N. Bernstein
- Subjects
microbiome ,standards ,technical variability ,16S rRNA ,intestinal biopsies ,inflammatory bowel diseases ,Microbiology ,QR1-502 - Abstract
BackgroundIn studies evaluating the microbiome, numerous factors can contribute to technical variability. These factors include DNA extraction methodology, sequencing protocols, and data analysis strategies. We sought to evaluate the impact these factors have on the results obtained when the sequence data are independently generated and analyzed by different laboratories.MethodsTo evaluate the effect of technical variability, we used human intestinal biopsy samples resected from individuals diagnosed with an inflammatory bowel disease (IBD), including Crohn’s disease (n = 12) and ulcerative colitis (n = 10), and those without IBD (n = 10). Matched samples from each participant were sent to three laboratories and studied using independent protocols for DNA extraction, library preparation, targeted-amplicon sequencing of a 16S rRNA gene hypervariable region, and processing of sequence data. We looked at two measures of interest – Bray–Curtis PERMANOVA R2 values and log2 fold-change estimates of the 25 most-abundant taxa – to assess variation in the results produced by each laboratory, as well the relative contribution to variation from the different extraction, sequencing, and analysis steps used to generate these measures.ResultsThe R2 values and estimated differential abundance associated with diagnosis were consistent across datasets that used different DNA extraction and sequencing protocols, and within datasets that pooled samples from multiple protocols; however, variability in bioinformatic processing of sequence data led to changes in R2 values and inconsistencies in taxonomic assignment and abundance estimates.ConclusionAlthough the contribution of DNA extraction and sequencing methods to variability were observable, we find that results can be robust to the various extraction and sequencing approaches used in our study. Differences in data processing methods have a larger impact on results, making comparison among studies less reliable and the combined analysis of bioinformatically processed samples nearly impossible. Our results highlight the importance of making raw sequence data available to facilitate combined and comparative analyses of published studies using common data processing protocols. Study methodologies should provide detailed data processing methods for validation, interpretability, reproducibility, and comparability.
- Published
- 2020
- Full Text
- View/download PDF
7. Mycobiome Sequencing and Analysis Applied to Fungal Community Profiling of the Lower Respiratory Tract During Fungal Pathogenesis
- Author
-
Lisa R. McTaggart, Julia K. Copeland, Anuradha Surendra, Pauline W. Wang, Shahid Husain, Bryan Coburn, David S. Guttman, and Julianne V. Kus
- Subjects
mycobiome ,internal transcribed spacer ,mock community ,respiratory tract ,Blastomyces ,Microbiology ,QR1-502 - Abstract
Invasive fungal infections are an increasingly important cause of human morbidity and mortality. We generated a next-generation sequencing (NGS)-based method designed to detect a wide range of fungi and applied it to analysis of the fungal microbiome (mycobiome) of the lung during fungal infection. Internal transcribed spacer 1 (ITS1) amplicon sequencing and a custom analysis pipeline detected 96% of species from three mock communities comprised of potential fungal lung pathogens with good recapitulation of the expected species distributions (Pearson correlation coefficients r = 0.63, p = 0.004; r = 0.71, p < 0.001; r = 0.62, p = 0.002). We used this pipeline to analyze mycobiomes of bronchoalveolar lavage (BAL) specimens classified as culture-negative (n = 50) or culture-positive (n = 39) for Blastomyces dermatitidis/gilchristii, the causative agent of North America blastomycosis. Detected in 91.4% of the culture-positive samples, Blastomyces dominated (>50% relative abundance) the mycobiome in 68.6% of these culture-positive samples but was absent in culture-negative samples. To overcome any bias in relative abundance due to between-sample variation in fungal biomass, an abundance-weighting calculation was used to normalize the data by accounting for sample-specific PCR cycle number and PCR product concentration data utilized during sample preparation. After normalization, there was a statistically significant greater overall abundance of ITS1 amplicon in the Blastomyces-culture-positive samples versus culture-negative samples. Moreover, the normalization revealed a greater biomass of yeast and environmental fungi in several Blastomyces-culture-positive samples than in the culture-negative samples. Successful detection of Coccidioides, Scedosporium, Phaeoacremonium, and Aspergillus in 6 additional culture-positive BALs by ITS1 amplicon sequencing demonstrates the ability of this method to detect a broad range of fungi from clinical specimens, suggesting that it may be a potentially useful adjunct to traditional fungal microbiological testing for the diagnosis of respiratory mycoses.
- Published
- 2019
- Full Text
- View/download PDF
8. Seasonal Community Succession of the Phyllosphere Microbiome
- Author
-
Julia K. Copeland, Lijie Yuan, Mehdi Layeghifard, Pauline W. Wang, and David S. Guttman
- Subjects
Microbiology ,QR1-502 ,Botany ,QK1-989 - Abstract
The leaf microbiome is influenced by both biotic and abiotic factors. Currently, we know little about the relative importance of these factors in determining microbiota composition and dynamics. To explore this issue, we collected weekly leaf samples over a 98-day growing season from multiple cultivars of common bean, soybean, and canola planted at three locations in Ontario, Canada, and performed Illumina-based microbiome analysis. We find that the leaf microbiota at the beginning of the season is very strongly influenced by the soil microbiota but, as the season progresses, it differentiates, becomes significantly less diverse, and transitions to having a greater proportion of leaf-specific taxa that are shared among all samples. A phylogenetic investigation of communities by reconstruction of unobserved states imputation of microbiome function inferred from the taxonomic data found significant differences between the soil and leaf microbiome, with a significant enrichment of motility gene categories in the former and metabolic gene categories in the latter. A network co-occurrence analysis identified two highly connected clusters as well as subclusters of putative pathogens and growth-promoting bacteria. These data reveal some of the complex ecological dynamics that occur in microbial communities over the course of a growing season and highlight the importance of community succession.
- Published
- 2015
- Full Text
- View/download PDF
9. Oligosaccharides and Microbiota in Human Milk Are Interrelated at 3 Months Postpartum in a Cohort of Women with a High Prevalence of Gestational Impaired Glucose Tolerance
- Author
-
Lauren LeMay-Nedjelski, James Butcher, Lars Bode, Sharon Unger, Michelle R Asbury, Julia K. Copeland, Deborah L O'Connor, Alain Stintzi, Alex Kiss, Pauline W. Wang, Sylvia H. Ley, Chloe Yonemitsu, and Anthony J. Hanley
- Subjects
Nutrition and Disease ,human milk microbiota ,breastfeeding ,030309 nutrition & dietetics ,Breastfeeding ,microbiome ,Oligosaccharides ,Medicine (miscellaneous) ,Physiology ,lactation ,Biology ,Cohort Studies ,Impaired glucose tolerance ,AcademicSubjects/MED00060 ,03 medical and health sciences ,fluids and secretions ,Lactation ,Glucose Intolerance ,Prevalence ,medicine ,Humans ,Prospective Studies ,Microbiome ,Prospective cohort study ,030304 developmental biology ,2. Zero hunger ,0303 health sciences ,Nutrition and Dietetics ,Milk, Human ,Microbiota ,Postpartum Period ,secretor status ,human milk ,maternal BMI ,medicine.disease ,gestational glucose intolerance ,Gestational diabetes ,Breast Feeding ,medicine.anatomical_structure ,Cohort ,AcademicSubjects/SCI00960 ,human milk oligosaccharides ,Female ,gestational diabetes ,Postpartum period - Abstract
Background Human milk is a rich source of human milk oligosaccharides (HMOs) and bacteria. It is unclear how these components interact within the breast microenvironment. Objectives The objectives were first, to investigate the association between maternal characteristics and HMOs, and second, to assess the association between HMOs and microbial community composition and predicted function in milk from women with high rates of gestational glucose intolerance. Methods This was an exploratory analysis of a previously completed prospective cohort study (NCT01405547) where milk samples (n = 107) were collected at 3 mo postpartum. Milk microbiota composition was analyzed by V4-16S ribosomal RNA gene sequencing and HMOs by rapid high-throughput HPLC. Data were stratified and analyzed by maternal secretor status phenotype and associations between HMOs and microbiota were determined using linear regression models (ɑ-diversity), Adonis (B-diversity), Poisson regression models (differential abundance), and general linear models (predicted microbial function). Results Prepregnancy BMI, race, and frequency of direct breastfeeding, but not gestational glucose intolerance, were found to be significantly associated with a number of HMOs among secretors and non-secretors. Fucosyllacto-N-hexaose was negatively associated with microbial richness (Chao1) among secretors [B-estimate (SE): −9.3 × 102 (3.4 × 102); P = 0.0082] and difucosyllacto-N-hexaose was negatively associated with microbiota diversity (Shannon index) [−1.7 (0.78); P = 0.029] among secretors. Lacto-N-neotetraose (LNnT) was associated with both microbial B-diversity (weighted UniFrac R2 = 0.040, P = 0.036) and KEGG ortholog B-diversity (Bray-Curtis R2 = 0.039, P = 0.043) in secretors. Additionally, difucosyllactose in secretors and disialyllacto-N-hexaose and LNnT in non-secretors were associated with enrichment of predicted microbial genes encoding for metabolism- and infection-related pathways (P-false discovery rate
- Published
- 2021
10. Invariant natural killer T cells minimally influence gut microbiota composition in mice
- Author
-
Qiaochu Lin, Meggie Kuypers, Zhewei Liu, Julia K Copeland, Donny Chan, Susan J Robertson, Jean Kontogiannis, David S Guttman, E. Kate Banks, Dana J Philpott, and Thierry Mallevaey
- Subjects
Microbiology (medical) ,Mice ,Infectious Diseases ,Microbiota ,Gastroenterology ,Animals ,Cytokines ,Natural Killer T-Cells ,Glycolipids ,Microbiology ,Gastrointestinal Microbiome - Abstract
Invariant Natural Killer T (iNKT) cells are unconventional T cells that respond to glycolipid antigens found in microbes in a CD1d-dependent manner. iNKT cells exert innate-like functions and produce copious amounts of cytokines, chemokines and cytotoxic molecules within only minutes of activation. As such, iNKT cells can fuel or dampen inflammation in a context-dependent manner. In addition, iNKT cells provide potent immunity against bacteria, viruses, parasites and fungi. Although microbiota-iNKT cell interactions are not well-characterized, mounting evidence suggests that microbiota colonization early in life impacts iNKT cell homeostasis and functions in disease. In this study, we showed that CD1d
- Published
- 2022
11. Maternal Diet and Infant Feeding Practices Are Associated with Variation in the Human Milk Microbiota at 3 Months Postpartum in a Cohort of Women with High Rates of Gestational Glucose Intolerance
- Author
-
Sylvia H. Ley, Michelle R Asbury, Pauline W. Wang, Julia K. Copeland, Sharon Unger, Lauren LeMay-Nedjelski, Alain Stintzi, Alex Kiss, Anthony J. Hanley, James Butcher, and Deborah L O'Connor
- Subjects
Nutrition and Disease ,Breastfeeding ,Medicine (miscellaneous) ,Physiology ,Biology ,Cohort Studies ,03 medical and health sciences ,Polyunsaturated fat ,0302 clinical medicine ,Pregnancy ,Glucose Intolerance ,Humans ,030212 general & internal medicine ,Prospective cohort study ,030304 developmental biology ,2. Zero hunger ,0303 health sciences ,Nutrition and Dietetics ,Prenatal nutrition ,Milk, Human ,Microbiota ,Postpartum Period ,Infant ,Maternal Nutritional Physiological Phenomena ,Diet ,Diabetes, Gestational ,Breast Feeding ,Cohort ,Gestation ,Female ,Breast feeding ,Postpartum period - Abstract
BACKGROUND: Human milk contains a diverse community of bacteria believed to play a role in breast health and inoculation of the infant's gastrointestinal tract. The role of maternal nutrition and infant feeding practices on the human milk microbiota remains poorly understood. OBJECTIVE: Our aim was to explore the associations between maternal diet (delivery to 3 mo postpartum), infant feeding practices, and the microbial composition and predicted function in milk from women with varied metabolic status. METHODS: This was an exploratory analysis of a previously completed prospective cohort study of women with varying degrees of gestational glucose intolerance (NCT01405547). Milk samples (n = 93 mothers) were collected at 3 mo postpartum. Maternal dietary information (validated food-frequency questionnaire) and infant feeding practices (human milk exclusivity, frequency of direct breastfeeding per day) were collected. V4-16S ribosomal RNA gene sequencing (Illumina MiSeq) was conducted to determine microbiota composition. RESULTS: Intake of polyunsaturated fat [β estimate (SE): 0.036 (0.018), P = 0.047] and fiber from grains [0.027 (0.013), P = 0.048] were positively associated with ɑ-diversity (Shannon index) of human milk. Overall microbial composition of human milk clustered based on human milk exclusivity (weighted UniFrac R(2) = 0.034, P = 0.015; Bray-Curtis R(2) = 0.041, P = 0.007), frequency of direct breastfeeding per day (Bray-Curtis R(2) = 0.057, P = 0.026), and maternal fiber intake from grains (Bray-Curtis R(2) = 0.055, P = 0.040). Total fiber, fiber from grains, dietary fat, and infant feeding practices were also associated with a number of differentially abundant taxa. The overall composition of predicted microbial functions was associated with total fiber consumption (Bray-Curtis R(2) = 0.067, P = 0.036) and human milk exclusivity (Bray-Curtis R(2) = 0.041, P = 0.013). CONCLUSIONS: Maternal consumption of fiber and fat, as well as mother's infant feeding practices, are important determinants of the human milk microbiota. Understanding whether these microbial changes impact an infant's overall health and development requires future study.
- Published
- 2021
12. A practical assessment of nano-phosphate on soybean (Glycine max) growth and microbiome establishment
- Author
-
David S. Guttman, Michelle M. McKnight, Zhi Qu, Julia K. Copeland, and Virginia K. Walker
- Subjects
0106 biological sciences ,0301 basic medicine ,chemistry.chemical_element ,Biomass ,lcsh:Medicine ,engineering.material ,Plant Roots ,01 natural sciences ,Article ,Microbial ecology ,03 medical and health sciences ,chemistry.chemical_compound ,RNA, Ribosomal, 16S ,Food science ,Internal transcribed spacer ,Fertilizers ,lcsh:Science ,Principal Component Analysis ,Rhizosphere ,Multidisciplinary ,Bacteria ,Microbiota ,Phosphorus ,lcsh:R ,Phosphate ,Soil microbiology ,Durapatite ,030104 developmental biology ,chemistry ,Glycine ,engineering ,Nanoparticles ,lcsh:Q ,Soybeans ,Fertilizer ,Plant sciences ,010606 plant biology & botany - Abstract
The efficacy of needle-shaped nano-hydroxyapatite (nHA; Ca10(PO4)6(OH)2) as a phosphate (Pi) fertilizer was evaluated as well as its impact on soil and soybean (Glycine max) bacterial and fungal communities. Microbial communities were evaluated in soy fertilized with nHA using ITS (internal transcribed spacer) and 16S rRNA high-throughput gene sequencing. Separate greenhouse growth experiments using agriculturally relevant nHA concentrations and application methods were used to assess plant growth and yield compared with no Pi (−P), soluble Pi (+P), and bulk HA controls. Overall, nHA treatments did not show significantly increased growth, biomass, total plant phosphorus concentrations, or yield compared with no Pi controls. Soil and rhizosphere community structures in controls and nHA treatment groups were similar, with minor shifts in the nHA-containing pots comparable to bulk HA controls at equal concentrations. The implementation of nHA in an agriculturally realistic manner and the resulting poor soy growth advises that contrary to some reports under specialized conditions, this nano-fertilizer may not be a viable alternative to traditional Pi fertilizers. If nano-phosphate fertilizers are to achieve their conjectured agricultural potential, alternative nHAs, with differing morphologies, physicochemical properties, and interactions with the soil matrix could be investigated using the evaluative procedures described.
- Published
- 2020
13. Limiting oxidative DNA damage reduces microbe-induced colitis-associated colorectal cancer
- Author
-
Catherine J. Streutker, Julia K. Copeland, Alberto Martin, Thergiory Irrazabal, David S. Guttman, Yann Malaise, Robert Gryfe, Erin O. Y. Wong, Mingsong Kang, Bhupesh Kumar Thakur, and William Wiley Navarre
- Subjects
0301 basic medicine ,Male ,DNA Repair ,endocrine system diseases ,Colorectal cancer ,Carcinogenesis ,General Physics and Astronomy ,medicine.disease_cause ,Inflammatory bowel disease ,Antioxidants ,0302 clinical medicine ,Medicine ,lcsh:Science ,Aged, 80 and over ,Multidisciplinary ,Guanosine ,Dextran Sulfate ,Middle Aged ,Colitis ,Lynch syndrome ,Interleukin-10 ,Adenomatous Polyposis Coli ,030220 oncology & carcinogenesis ,cardiovascular system ,Mucosal immunology ,population characteristics ,DNA mismatch repair ,Female ,Colorectal Neoplasms ,Adult ,congenital, hereditary, and neonatal diseases and abnormalities ,DNA damage ,Colon ,Science ,General Biochemistry, Genetics and Molecular Biology ,Article ,Helicobacter Infections ,03 medical and health sciences ,Gastrointestinal cancer ,Escherichia coli ,Animals ,Humans ,Neoplastic transformation ,cardiovascular diseases ,neoplasms ,Aged ,Inflammation ,Helicobacter pylori ,Bacteria ,business.industry ,Cancer ,nutritional and metabolic diseases ,General Chemistry ,medicine.disease ,Colorectal Neoplasms, Hereditary Nonpolyposis ,digestive system diseases ,Mice, Inbred C57BL ,Disease Models, Animal ,Oxidative Stress ,030104 developmental biology ,Mutation ,Cancer research ,Dysbiosis ,lcsh:Q ,business ,DNA Damage - Abstract
Inflammatory bowel disease patients have a greatly increased risk of developing colitis-associated colon cancer (CAC); however, the basis for inflammation-induced genetic damage requisite for neoplasia is unclear. Using three models of CAC, we find that sustained inflammation triggers 8-oxoguanine DNA lesions. Strikingly, antioxidants or iNOS inhibitors reduce 8-oxoguanine and polyps in CAC models. Because the mismatch repair (MMR) system repairs 8-oxoguanine and is frequently defective in colorectal cancer (CRC), we test whether 8-oxoguanine mediates oncogenesis in a Lynch syndrome (MMR-deficient) model. We show that microbiota generates an accumulation of 8-oxoguanine lesions in MMR-deficient colons. Accordingly, we find that 8-oxoguanine is elevated in neoplastic tissue of Lynch syndrome patients compared to matched untransformed tissue or non-Lynch syndrome neoplastic tissue. While antioxidants reduce 8-oxoguanine, they do not reduce CRC in Lynch syndrome models. Hence, microbe-induced oxidative/nitrosative DNA damage play causative roles in inflammatory CRC models, but not in Lynch syndrome models., It is unclear how microbial-induced inflammation promotes neoplastic transformation in colitis-associated cancer (CAC). Here, the authors use models of CAC to show that inflammation induces 8-oxoguanine lesions in DNA, and that antioxidants can reduce these DNA lesions as well as CAC.
- Published
- 2020
14. Characterization and predictive functional profiles on metagenomic 16S rRNA data of liver transplant recipients: A longitudinal study
- Author
-
Julia K. Copeland, Elisa Pasini, Saranya Sivaraj, Johane P. Allard, Mamatha Bhat, David S. Guttman, Anshu Malik, Deepali Kumar, Atul Humar, Amirhossein Azhie, Shahid Husain, and Marc Angeli
- Subjects
Transplantation ,Longitudinal study ,biology ,business.industry ,medicine.medical_treatment ,Gut flora ,Liver transplantation ,biology.organism_classification ,16S ribosomal RNA ,Microbiology ,Hypervariable region ,Gastrointestinal Microbiome ,Liver Transplantation ,Infectious disease (medical specialty) ,Metagenomics ,RNA, Ribosomal, 16S ,Medicine ,Animals ,Humans ,Longitudinal Studies ,business ,Feces - Abstract
Long-term survival after Liver Transplantation (LT) is often compromised by infectious and metabolic complications. We aimed to delineate alterations in intestinal microbiome (IM) over time that could contribute to medical complications compromising long-term survival following LT. Fecal samples from LT recipients were collected at 3 months (3M) and 6 months (6M) post-LT. The bacterial DNA was extracted using E.Z.N.A.® Stool DNA Kit and 16S rRNA gene sequencing at V4 hypervariable region was performed. DADA2 and Phyloseq was implemented to analyze the taxonomic composition. Differentially abundant taxa were identified by metagenomeSeq and LEfSe. Piphillin, an Inferred functional metagenomic analysis tool was used to study the bacterial functional content. For comparison, healthy samples were extracted from NCBI and analyzed similarly. The taxonomic & functional profiles of LT recipients were validated with metagenomic sequencing data from animals exposed to immunosuppressants using Venny. Our findings provide a new perspective on longitudinal increase in specific IM communities post-LT along with an increase in bacterial genes associated with metabolic and infectious disease. This article is protected by copyright. All rights reserved.
- Published
- 2021
15. Human milk nutrient fortifiers alter the developing gastrointestinal microbiota of very-low-birth-weight infants
- Author
-
Michelle R. Asbury, Sara Shama, Jong Yup Sa, Nicole Bando, James Butcher, Elena M. Comelli, Julia K. Copeland, Victoria Forte, Alex Kiss, Philip M. Sherman, Alain Stintzi, Amel Taibi, Christopher Tomlinson, Sharon Unger, Pauline W. Wang, and Deborah L. O’Connor
- Subjects
Milk, Human ,Infant, Newborn ,Infant ,Nutrients ,Microbiology ,Gastrointestinal Microbiome ,Virology ,Food, Fortified ,Animals ,Humans ,Infant, Very Low Birth Weight ,Cattle ,Parasitology ,Infant, Premature - Abstract
Nutrient fortifiers are added to human milk to support the development of very-low-birth-weight infants. Currently, bovine-milk-based fortifiers (BMBFs) are predominantly administered, with increasing interest in adopting human-milk-based fortifiers (HMBFs). Although beneficial for growth, their effects on the gastrointestinal microbiota are unclear. This triple-blind, randomized clinical trial (NCT02137473) tested how nutrient-enriching human milk with HMBF versus BMBF affects the gastrointestinal microbiota of infants born 1,250 g during hospitalization. HMBF-fed infants (n = 63, n = 269 stools) showed lower microbial diversity, altered microbial community structure, and changes in predicted microbial functions compared with BMBF-fed infants (n = 56, n = 239 stools). HMBF-fed infants had higher relative and normalized abundances of unclassified Enterobacteriaceae and lower abundances of Clostridium sensu stricto. Post hoc analyses identified dose-dependent relationships between individual feed components (volumes of mother's milk, donor milk, and fortifiers) and the microbiota. These results highlight how nutrient fortifiers impact the microbiota of very-low-birth-weight infants during a critical developmental window.
- Published
- 2022
16. Mothers of Preterm Infants Have Individualized Breast Milk Microbiota that Changes Temporally Based on Maternal Characteristics
- Author
-
Philip M. Sherman, Christopher Tomlinson, Victoria Forte, Sharon Unger, James Butcher, Deborah L O'Connor, Michelle R Asbury, Elena M. Comelli, Julia K. Copeland, Alain Stintzi, Alex Kiss, Nicole Bando, Lauren LeMay-Nedjelski, and Pauline W. Wang
- Subjects
Physiology ,Mothers ,Breast milk ,Biology ,Microbiology ,03 medical and health sciences ,fluids and secretions ,0302 clinical medicine ,Pregnancy ,Virology ,Lactation ,medicine ,Humans ,Microbiome ,030304 developmental biology ,0303 health sciences ,Gastrointestinal tract ,Milk, Human ,Vaginal delivery ,Cesarean Section ,Infant, Newborn ,food and beverages ,Anti-Bacterial Agents ,Gastrointestinal Microbiome ,medicine.anatomical_structure ,Breast Feeding ,Parasitology ,Female ,030217 neurology & neurosurgery ,Infant, Premature - Abstract
Mother's milk contains complex microbial communities thought to be important for colonizing a preterm infant's gastrointestinal tract. However, little is known about the microbiota in the preterm mother's milk and factors influencing its composition. We characterized the temporal dynamics of microbial communities in 490 breast milk samples from 86 mothers of preterm infants (born1,250g) over the first 8 weeks postpartum. Highly individualized microbial communities were identified in each mother's milk that changed temporally with notable alterations in predicted microbial functions. However, pre-pregnancy BMI, delivery mode, and antibiotics were associated with changes in these microbial dynamics. Individual classes of antibiotics and their duration of exposure during prenatal and postpartum periods showed unique relationships with microbial taxa abundance and diversity in mother's milk. These results highlight the temporal complexity of the preterm mother's milk microbiota and its relationship with maternal characteristics as well as the importance of discussing antibiotic stewardship for mothers.
- Published
- 2020
17. Examining the relationship between maternal body size, gestational glucose tolerance status, mode of delivery and ethnicity on mother’s milk microbiota at three months post-partum
- Author
-
Lauren LeMay-Nedjelski, James Butcher, Sylvia H. Ley, Michelle R. Asbury, Anthony J. Hanley, Alex Kiss, Sharon Unger, Julia K. Copeland, Pauline W. Wang, Bernard Zinman, Alain Stintzi, and Deborah L. O’Connor
- Abstract
Background: Few studies have examined how maternal body mass index (BMI), mode of delivery and ethnicity affect the microbial composition of human milk and none have examined associations with maternal metabolic status. Given the high prevalence of maternal adiposity and impaired glucose metabolism, and the importance of human milk in the colonization of the infant gut, we systematically investigated the associations between these maternal factors and milk microbial composition and functionality. Methods: Women ≥20 years were recruited during pregnancy and milk samples were collected at 3 months post-partum (NCT01405547). Demographic data, weight, height, and a 3-hour oral glucose tolerance test were conducted at 30 (95% CI: 25-33) weeks gestation. Metagenomic DNA extraction and 16S ribosomal RNA gene sequencing of the V4 hypervariable region (Illumina MiSeq) was carried out on 113 milk samples. Results: Multivariable linear regression analyses demonstrated no significant associations between maternal characteristics (maternal BMI [pre-pregnancy, 3 months post-partum], glucose tolerance, mode of delivery and ethnicity) and microbiota alpha-diversity; however, pre-pregnancy BMI was associated with human milk beta-diversity (Bray-Curtis p=0.040). Women with a pre-pregnancy BMI >30 kg/m2 (obese) had a greater incidence of Bacteroidetes (incidence rate ratio [IRR]: 3.70 [95% CI: 1.61-8.48]) and a reduced incidence of Proteobacteria (0.62 [0.43-0.90]), compared to overweight women (BMI 25.0-29.9 kg/m2) as assessed by multivariable Poisson regression. Increased incidence of Gemella was observed among overweight (versus healthy) mothers with gestational diabetes (5.96 [1.85-19.21]) and obese (versus healthy) mothers with impaired glucose tolerance (4.04 [1.63-10.01]). An increased incidence of Brevundimonas (16.70 [5.99-46.57]) was found in the milk of women who underwent an unscheduled C-section versus vaginal delivery. Lastly, functional gene inference demonstrated that obesity was associated with increased abundance of genes encoding for the biosynthesis of secondary metabolites in milk (coefficient=0.00028, p=0.0070). Conclusions: Mother’s milk has a diverse microbiota of which its diversity and differential abundance appear associated with maternal body size, glucose tolerance status, mode of delivery, and ethnicity. Further research is warranted to determine whether this variability in the milk microbiota impacts colonization of the infant gut.
- Published
- 2020
18. Chloroplast sequence variation and the efficacy of peptide nucleic acids for blocking host amplification in plant microbiome studies
- Author
-
Patricia Lu-Irving, Connor R. Fitzpatrick, David S. Guttman, Katrina M. Dlugosch, Pauline W. Wang, Julia K. Copeland, David A. Baltrus, and Marc T. J. Johnson
- Subjects
DNA, Bacterial ,Peptide Nucleic Acids ,0301 basic medicine ,Microbiology (medical) ,Most recent common ancestor ,16S amplicon sequencing ,Chloroplasts ,030106 microbiology ,Short Report ,Locus (genetics) ,Biology ,Asteraceae ,DNA, Ribosomal ,Plant Roots ,Microbiology ,Host Specificity ,lcsh:Microbial ecology ,03 medical and health sciences ,chemistry.chemical_compound ,Host contamination ,PNA clamp ,RNA, Ribosomal, 16S ,Plastid ,Phylogeny ,2. Zero hunger ,Genetics ,Bacteria ,Peptide nucleic acid ,Host (biology) ,DNA, Chloroplast ,Genetic Variation ,food and beverages ,Sequence Analysis, DNA ,Plants ,Chloroplast ,030104 developmental biology ,chemistry ,Nucleic acid ,lcsh:QR100-130 ,Plastid variation ,Nucleic Acid Amplification Techniques ,DNA - Abstract
Background The ability to efficiently characterize microbial communities from host individuals can be limited by co-amplification of host organellar sequences (mitochondrial and/or plastid), which share a common ancestor and thus sequence similarity with extant bacterial lineages. One promising approach is the use of sequence-specific peptide nucleic acid (PNA) clamps, which bind to, and block amplification of, host-derived DNA. Universal PNA clamps have been proposed to block host plant-derived mitochondrial (mPNA) and plastid (pPNA) sequences at the V4 16S rRNA locus, but their efficacy across a wide range of host plant species has not been experimentally tested. Results Using the universal PNA clamps, we amplified and sequenced root microbial communities from replicate individuals of 32 plant species with a most recent common ancestor inferred at 140 MYA. We found the average rate of host plastid contamination across plant species was 23%, however, particular lineages exhibited much higher rates (62–94%), with the highest levels of contamination occurring in the Asteraceae. We investigated chloroplast sequence variation at the V4 locus across 500 land plant species (Embryophyta) and found six lineages with mismatches between plastid and the universal pPNA sequence, including all species within the Asteraceae. Using a modified pPNA for the Asteraceae sequence, we found (1) host contamination in Asteraceae species was reduced from 65 to 23%; and (2) host contamination in non-Asteraceae species was increased from 12 to 69%. These results demonstrate that even single nucleotide mismatches can lead to drastic reductions in pPNA efficacy in blocking host amplification. Importantly, we found that pPNA type (universal or modified) had no effect on the detection of individual bacterial taxa, or estimates of within and between sample bacterial diversity, suggesting that our modification did not introduce bias against particular bacterial lineages. Conclusions When high similarity exists between host organellar DNA and PCR target sequences, PNA clamps are an important molecular tool to reduce host contamination during amplification. Here, we provide a validated framework to modify universal PNA clamps to accommodate host variation in organellar sequences. Electronic supplementary material The online version of this article (10.1186/s40168-018-0534-0) contains supplementary material, which is available to authorized users.
- Published
- 2018
19. Impact of Immunosuppression on the Metagenomic Composition of the Intestinal Microbiome: a Systems Biology Approach to Post-Transplant Diabetes
- Author
-
Atul Humar, David S. Guttman, Anastasia Teterina, Shahid Husain, E. Renner, Deepali Kumar, Elisa Pasini, Mamatha Bhat, Julia K. Copeland, Johane P. Allard, and Marc Angeli
- Subjects
0301 basic medicine ,Male ,Anabolism ,medicine.medical_treatment ,lcsh:Medicine ,Context (language use) ,030230 surgery ,Article ,Tacrolimus ,03 medical and health sciences ,0302 clinical medicine ,RNA, Ribosomal, 16S ,medicine ,Diabetes Mellitus ,Animals ,Humans ,Microbiome ,lcsh:Science ,Immunosuppression Therapy ,Sirolimus ,Transplantation ,Multidisciplinary ,biology ,Systems Biology ,Gastrointestinal Microbiome ,lcsh:R ,Computational Biology ,Immunosuppression ,biology.organism_classification ,Rats ,030104 developmental biology ,Gene Ontology ,Hyperglycemia ,Immunology ,Metagenome ,lcsh:Q ,Metagenomics ,Roseburia ,Insulin Resistance ,Immunosuppressive Agents - Abstract
Solid organ transplantation (SOT) outcomes have continued to improve, although long-term use of immunosuppressants can lead to complications such as diabetes, compromising post-transplant outcomes. In this study, we have characterized the intestinal microbiome (IM) composition at the metagenomic level in the context of hyperglycemia induced by immunosuppressants. Sprague-Dawley rats were subjected to doses of tacrolimus and sirolimus that reliably induce hyperglycemia and an insulin-resistant state. Subsequent exposure to probiotics resulted in reversal of hyperglycemia. 16S rRNA and metagenomic sequencing of stool were done to identify the bacterial genes and pathways enriched in immunosuppression. Bacterial diversity was significantly decreased in sirolimus-treated rats, with 9 taxa significantly less present in both immunosuppression groups: Roseburia, Oscillospira, Mollicutes, Rothia, Micrococcaceae, Actinomycetales and Staphylococcus. Following probiotics, these changes were reversed to baseline. At the metagenomic level, the balance of metabolism was shifted towards the catabolic side with an increase of genes involved in sucrose degradation, similar to diabetes. Conversely, the control rats had greater abundance of anabolic processes and genes involved in starch degradation. Immunosuppression leads to a more catabolic microbial profile, which may influence development of diabetes after SOT. Modulation of the microbiome with probiotics may help in minimizing adverse long-term effects of immunosuppression.
- Published
- 2017
20. Microbial diversity in leaves, trunk and rhizosphere of coconut palms (Cocos nucifera L.) associated with the coconut lethal yellowing phytoplasma in Grand-Lahou, Cte dIvoire
- Author
-
Julia K. Copeland, Wolfgang Moeder, Yaima Arocha Rosete, Ahmed R. Hasan, Jean Louis Konan, Hortense Atta Diallo, James A. Scott, Nadia P. Morales-Lizcano, Pauline Wang, Tacra T. Lekadou, Keiko Yoshioka, and Henry S. To
- Subjects
0301 basic medicine ,Fusarium ,Rhizosphere ,biology ,030106 microbiology ,Pantoea ,food and beverages ,biology.organism_classification ,Applied Microbiology and Biotechnology ,03 medical and health sciences ,Burkholderia ,Cocos nucifera ,Phytoplasma ,Trichoderma ,Botany ,Genetics ,Agronomy and Crop Science ,Molecular Biology ,Lethal yellowing ,Biotechnology - Abstract
The diversity of culturable bacterial and fungal communities was assessed from leaves, trunk and rhizosphere of coconut palms infected and non-infected by the Cote d’Ivoire lethal yellowing (CILY) phytoplasma. Bacterial and fungal microbes were isolated from leaves, trunk and rhizosphere samples collected from two villages of Grand-Lahou, Braffedon and Yaokro, by using a high-throughput 'dilution-to-extinction' cultivation method coupled with PCR and sequencing with primers that amplified both the 16S ribosomal RNA and intergenic transcribed spacer (ITS) genes. The relative abundance was higher for Bacillus and Candida in Braffedon, and Burkholderia and Neodeightonia in Yaokro. Commonly genera identified from rhizosphere included Bacillus, Burkholderia, Pseudomonas, Streptomyces, Cryptococcus, Penicillium, Purpureocillium and Trichoderma. The most abundant endophytes identified were Pantoea, Candida, Cryptococcus, Bacillus, Pseudomonas, Penicillium, Aspergillus and Rhodotorula. Genera limited to symptomless palms included Arthrininum, Chaetomium, Phialemonium, Fusarium, Klebsiella and Candida. Results indicate that the CILY phytoplasma may be a factor determining the level of diversity of a microbial community in a given location. Our research provides the basis to investigate the possible effect of endophytic and rhizosphere microbes against the CILY phytoplasma to further effectively improve the management of CILY in Grand-Lahou. Key words: Cote d’Ivoire lethal yellowing phytoplasma, endophytes, biocontrol, coconut.
- Published
- 2017
21. Examining the relationship between maternal body size, gestational glucose tolerance status, mode of delivery and ethnicity on human milk microbiota at three months post-partum
- Author
-
Bernard Zinman, James Butcher, Anthony J. Hanley, Sharon Unger, Michelle R Asbury, Alain Stintzi, Alex Kiss, Julia K. Copeland, Sylvia H. Ley, Deborah L O'Connor, Lauren LeMay-Nedjelski, and Pauline W. Wang
- Subjects
Microbiology (medical) ,Adult ,lcsh:QR1-502 ,Physiology ,Secondary Metabolism ,Gestational Age ,Overweight ,Biology ,Rate ratio ,Microbiology ,lcsh:Microbiology ,Body Mass Index ,Impaired glucose tolerance ,03 medical and health sciences ,0302 clinical medicine ,Pregnancy ,medicine ,Ethnicity ,Body Size ,Humans ,Mass index ,030212 general & internal medicine ,Caesarean delivery ,Gestational diabetes ,Vaginal delivery ,030304 developmental biology ,0303 health sciences ,Clinical Trials as Topic ,Bacteria ,Milk, Human ,Incidence (epidemiology) ,Microbiota ,Postpartum Period ,Human milk ,Glucose Tolerance Test ,medicine.disease ,Delivery, Obstetric ,Obesity ,Linear Models ,Mode of delivery ,Female ,Microbiome ,medicine.symptom ,Body mass index ,Maternal Age ,Research Article - Abstract
Background Few studies have examined how maternal body mass index (BMI), mode of delivery and ethnicity affect the microbial composition of human milk and none have examined associations with maternal metabolic status. Given the high prevalence of maternal adiposity and impaired glucose metabolism, we systematically investigated the associations between these maternal factors in women ≥20 years and milk microbial composition and predicted functionality by V4-16S ribosomal RNA gene sequencing (NCT01405547; https://clinicaltrials.gov/ct2/show/NCT01405547). Demographic data, weight, height, and a 3-h oral glucose tolerance test were gathered at 30 (95% CI: 25–33) weeks gestation, and milk samples were collected at 3 months post-partum (n = 113). Results Multivariable linear regression analyses demonstrated no significant associations between maternal characteristics (maternal BMI [pre-pregnancy, 3 months post-partum], glucose tolerance, mode of delivery and ethnicity) and milk microbiota alpha-diversity; however, pre-pregnancy BMI was associated with human milk microbiota beta-diversity (Bray-Curtis R2 = 0.037). Women with a pre-pregnancy BMI > 30 kg/m2 (obese) had a greater incidence of Bacteroidetes (incidence rate ratio [IRR]: 3.70 [95% CI: 1.61–8.48]) and a reduced incidence of Proteobacteria (0.62 [0.43–0.90]) in their milk, compared to women with an overweight BMI (25.0–29.9 kg/m2) as assessed by multivariable Poisson regression. An increased incidence of Gemella was observed among mothers with gestational diabetes who had an overweight BMI versus healthy range BMI (5.96 [1.85–19.21]). An increased incidence of Gemella was also observed among mothers with impaired glucose tolerance with an obese BMI versus mothers with a healthy range BMI (4.04 [1.63–10.01]). An increased incidence of Brevundimonas (16.70 [5.99–46.57]) was found in the milk of women who underwent an unscheduled C-section versus vaginal delivery. Lastly, functional gene inference demonstrated that pre-pregnancy obesity was associated with an increased abundance of genes encoding for the biosynthesis of secondary metabolites pathway in milk (coefficient = 0.0024, PFDR Conclusions Human milk has a diverse microbiota of which its diversity and differential abundance appear associated with maternal BMI, glucose tolerance status, mode of delivery, and ethnicity. Further research is warranted to determine whether this variability in the milk microbiota impacts colonization of the infant gut.
- Published
- 2019
22. Gut-associated IgA+ immune cells regulate obesity-related insulin resistance
- Author
-
Allan Okrainec, Bryan Coburn, Mark K. Nøhr, David S. Guttman, Tim Jackson, Xavier S. Revelo, Mainak Chakraborty, Kathleen Cheng, Xavier Clemente-Casares, Yi Hsuan Lin, Saad Khan, Susan M. Poutanen, Shawn Winer, Julia K. Copeland, Sue Tsai, Herbert Y. Gaisano, Helen Luck, Helena Lei, Margaret E. Conner, Yi Tao Chan, Johane P. Allard, Justin H. Kim, Daniel A. Winer, Marie Christine Perry, and Magar Ghazarian
- Subjects
0301 basic medicine ,Male ,Science ,General Physics and Astronomy ,Adipose tissue ,Inflammation ,02 engineering and technology ,General Biochemistry, Genetics and Molecular Biology ,Article ,Cohort Studies ,03 medical and health sciences ,Feces ,Mice ,Immune system ,Insulin resistance ,medicine ,Glucose homeostasis ,Animals ,Humans ,Obesity ,lcsh:Science ,B cell ,B cells ,B-Lymphocytes ,Multidisciplinary ,Intestinal permeability ,business.industry ,Diabetes ,General Chemistry ,021001 nanoscience & nanotechnology ,medicine.disease ,3. Good health ,Gastrointestinal Microbiome ,Immunoglobulin A ,Intestines ,030104 developmental biology ,medicine.anatomical_structure ,Glucose ,Adipose Tissue ,Immunology ,Mucosal immunology ,lcsh:Q ,Blood sugar regulation ,medicine.symptom ,Insulin Resistance ,0210 nano-technology ,business - Abstract
The intestinal immune system is emerging as an important contributor to obesity-related insulin resistance, but the role of intestinal B cells in this context is unclear. Here, we show that high fat diet (HFD) feeding alters intestinal IgA+ immune cells and that IgA is a critical immune regulator of glucose homeostasis. Obese mice have fewer IgA+ immune cells and less secretory IgA and IgA-promoting immune mediators. HFD-fed IgA-deficient mice have dysfunctional glucose metabolism, a phenotype that can be recapitulated by adoptive transfer of intestinal-associated pan-B cells. Mechanistically, IgA is a crucial link that controls intestinal and adipose tissue inflammation, intestinal permeability, microbial encroachment and the composition of the intestinal microbiome during HFD. Current glucose-lowering therapies, including metformin, affect intestinal-related IgA+ B cell populations in mice, while bariatric surgery regimen alters the level of fecal secretory IgA in humans. These findings identify intestinal IgA+ immune cells as mucosal mediators of whole-body glucose regulation in diet-induced metabolic disease., The effect of diet-induced obesity on intestinal B cell populations is not well understood despite emerging evidence of a critical role for the intestinal immune system in contributing to insulin resistance. Here, the authors show important functions of IgA in regulating metabolic disease and for intestinal immunity in modulating systemic glucose metabolism.
- Published
- 2019
23. Mycobiome Sequencing and Analysis Applied to Fungal Community Profiling of the Lower Respiratory Tract During Fungal Pathogenesis
- Author
-
Lisa R. McTaggart, Julia K. Copeland, Anuradha Surendra, Pauline W. Wang, Shahid Husain, Bryan Coburn, David S. Guttman, and Julianne V. Kus
- Subjects
Microbiology (medical) ,0303 health sciences ,Aspergillus ,biology ,030306 microbiology ,lcsh:QR1-502 ,Amplicon ,biology.organism_classification ,respiratory tract ,Microbiology ,lcsh:Microbiology ,Human morbidity ,Scedosporium ,internal transcribed spacer ,03 medical and health sciences ,mycobiome ,mock community ,Phaeoacremonium ,Blastomyces ,Coccidioides ,Microbiome ,Internal transcribed spacer ,030304 developmental biology ,Original Research - Abstract
Invasive fungal infections are an increasingly important cause of human morbidity and mortality. We generated a next-generation sequencing (NGS)-based method designed to detect a wide range of fungi and applied it to analysis of the fungal microbiome (mycobiome) of the lung during fungal infection. Internal transcribed spacer 1 (ITS1) amplicon sequencing and a custom analysis pipeline detected 96% of species from three mock communities comprised of potential fungal lung pathogens with good recapitulation of the expected species distributions (Pearson correlation coefficients r = 0.63, p = 0.004; r = 0.71, p < 0.001; r = 0.62, p = 0.002). We used this pipeline to analyze mycobiomes of bronchoalveolar lavage (BAL) specimens classified as culture-negative (n = 50) or culture-positive (n = 39) for Blastomyces dermatitidis/gilchristii, the causative agent of North America blastomycosis. Detected in 91.4% of the culture-positive samples, Blastomyces dominated (>50% relative abundance) the mycobiome in 68.6% of these culture-positive samples but was absent in culture-negative samples. To overcome any bias in relative abundance due to between-sample variation in fungal biomass, an abundance-weighting calculation was used to normalize the data by accounting for sample-specific PCR cycle number and PCR product concentration data utilized during sample preparation. After normalization, there was a statistically significant greater overall abundance of ITS1 amplicon in the Blastomyces-culture-positive samples versus culture-negative samples. Moreover, the normalization revealed a greater biomass of yeast and environmental fungi in several Blastomyces-culture-positive samples than in the culture-negative samples. Successful detection of Coccidioides, Scedosporium, Phaeoacremonium, and Aspergillus in 6 additional culture-positive BALs by ITS1 amplicon sequencing demonstrates the ability of this method to detect a broad range of fungi from clinical specimens, suggesting that it may be a potentially useful adjunct to traditional fungal microbiological testing for the diagnosis of respiratory mycoses.
- Published
- 2018
24. Assembly and ecological function of the root microbiome across angiosperm plant species
- Author
-
Pauline W. Wang, Marc T. J. Johnson, Julia K. Copeland, Connor R. Fitzpatrick, Peter M. Kotanen, and David S. Guttman
- Subjects
0106 biological sciences ,0301 basic medicine ,Drought tolerance ,Biology ,Plant Roots ,01 natural sciences ,Magnoliopsida ,03 medical and health sciences ,RNA, Ribosomal, 16S ,Ecosystem ,Symbiosis ,Phylogeny ,Soil Microbiology ,2. Zero hunger ,Plant evolution ,Abiotic component ,Rhizosphere ,Functional ecology ,Multidisciplinary ,Bacteria ,Ecology ,Microbiota ,fungi ,Root microbiome ,food and beverages ,15. Life on land ,Droughts ,Plant ecology ,030104 developmental biology ,PNAS Plus ,13. Climate action ,010606 plant biology & botany - Abstract
Across plants and animals, host-associated microbial communities play fundamental roles in host nutrition, development, and immunity. The factors that shape host–microbiome interactions are poorly understood, yet essential for understanding the evolution and ecology of these symbioses. Plant roots assemble two distinct microbial compartments from surrounding soil: the rhizosphere (microbes surrounding roots) and the endosphere (microbes within roots). Root-associated microbes were key for the evolution of land plants and underlie fundamental ecosystem processes. However, it is largely unknown how plant evolution has shaped root microbial communities, and in turn, how these microbes affect plant ecology, such as the ability to mitigate biotic and abiotic stressors. Here we show that variation among 30 angiosperm species, which have diverged for up to 140 million years, affects root bacterial diversity and composition. Greater similarity in root microbiomes between hosts leads to negative effects on plant performance through soil feedback, with specific microbial taxa in the endosphere and rhizosphere potentially affecting competitive interactions among plant species. Drought also shifts the composition of root microbiomes, most notably by increasing the relative abundance of the Actinobacteria. However, this drought response varies across host plant species, and host-specific changes in the relative abundance of endosphere Streptomyces are associated with host drought tolerance. Our results emphasize the causes of variation in root microbiomes and their ecological importance for plant performance in response to biotic and abiotic stressors.
- Published
- 2018
25. Methods and Strategies to Examine the Human Breastmilk Microbiome
- Author
-
Alain Stintzi, James Butcher, Julia K. Copeland, Deborah L O'Connor, Sharon Unger, Lauren LeMay-Nedjelski, and Pauline W. Wang
- Subjects
0301 basic medicine ,03 medical and health sciences ,030104 developmental biology ,Illumina miseq ,Microbiome ,Computational biology ,Biology ,Optimal methods - Abstract
It has recently been discovered that breastmilk is not sterile, but contains a vast array of microbes, known collectively as the breastmilk microbiome. The breastmilk microbiome field is in its infancy, but over the last decade, our understanding of the microbial communities that inhabit the human body has increased exponentially, due in large part to novel next-generation sequencing technologies. These culture-independent, high-throughput molecular technologies have allowed biologists to investigate the entirety of microbiota present in breastmilk, which was previously poorly known. These approaches are novel and the methodologies surrounding the exploration of the breastmilk microbiota remain in flux. The objectives of this chapter are to outline what is known thus far and detail the optimal methods and strategies to conducting a breastmilk microbiome study from subject recruitment and milk collection to DNA extraction, high-throughput sequencing and bioinformatics analyses.
- Published
- 2018
26. Regulation of Obesity-Related Insulin Resistance with Gut Anti-inflammatory Agents
- Author
-
Julia K. Copeland, Sue Tsai, Brittany A. Rasmussen, Shawn Winer, Jennifer J. Ahn, Tony K.T. Lam, Jason Chung, David Prescott, David S. Guttman, Daniel A. Winer, Dana J. Philpott, Minna Woo, Edgar G. Engleman, Xavier S. Revelo, Kenneth Croitoru, Shannon E. Dunn, Helena Lei, Melissa Hui Yen Chng, Helen Luck, Sally Yu Shi, Xavier Clemente-Casares, Cynthia T. Luk, Anuradha Surendra, Magar Ghazarian, and Stephen E. Girardin
- Subjects
medicine.medical_specialty ,Integrin beta Chains ,Physiology ,Blotting, Western ,Anti-Inflammatory Agents ,Adipose tissue ,Inflammation ,Biology ,Diet, High-Fat ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Insulin resistance ,Immune system ,Antigen ,Immunity ,Internal medicine ,medicine ,Animals ,Obesity ,Mesalamine ,Immunity, Mucosal ,Molecular Biology ,030304 developmental biology ,0303 health sciences ,Lamina propria ,Mucous Membrane ,Histological Techniques ,digestive, oral, and skin physiology ,Cell Biology ,Flow Cytometry ,medicine.disease ,Immunohistochemistry ,3. Good health ,Gastrointestinal Tract ,Mice, Inbred C57BL ,Endocrinology ,medicine.anatomical_structure ,Mucosal immunology ,030220 oncology & carcinogenesis ,Immunology ,Cytokines ,Insulin Resistance ,medicine.symptom - Abstract
SummaryObesity has reached epidemic proportions, but little is known about its influence on the intestinal immune system. Here we show that the gut immune system is altered during high-fat diet (HFD) feeding and is a functional regulator of obesity-related insulin resistance (IR) that can be exploited therapeutically. Obesity induces a chronic phenotypic pro-inflammatory shift in bowel lamina propria immune cell populations. Reduction of the gut immune system, using beta7 integrin-deficient mice (Beta7null), decreases HFD-induced IR. Treatment of wild-type HFD C57BL/6 mice with the local gut anti-inflammatory, 5-aminosalicylic acid (5-ASA), reverses bowel inflammation and improves metabolic parameters. These beneficial effects are dependent on adaptive and gut immunity and are associated with reduced gut permeability and endotoxemia, decreased visceral adipose tissue inflammation, and improved antigen-specific tolerance to luminal antigens. Thus, the mucosal immune system affects multiple pathways associated with systemic IR and represents a novel therapeutic target in this disease.
- Published
- 2015
27. Metabolic Reprogramming by Hexosamine Biosynthetic and Golgi N-Glycan Branching Pathways
- Author
-
Kevin Yau, Judy Pawling, Anas M. Abdel Rahman, Julia K. Copeland, James W. Dennis, Cunjie Zhang, Michael Ryczko, Rui Chen, David S. Guttman, Anu Surendra, and Daniel Figeys
- Subjects
Male ,0301 basic medicine ,Glycan ,Administration, Oral ,Golgi Apparatus ,Biology ,Carbohydrate metabolism ,N-Acetylglucosaminyltransferases ,Article ,Acetylglucosamine ,Cell Line ,Mice ,03 medical and health sciences ,chemistry.chemical_compound ,symbols.namesake ,0302 clinical medicine ,Biosynthesis ,Polysaccharides ,Tandem Mass Spectrometry ,3T3-L1 Cells ,Animals ,Homeostasis ,Glucose homeostasis ,Cells, Cultured ,Mice, Knockout ,Glucosamine ,Multidisciplinary ,Body Weight ,Age Factors ,Lipid metabolism ,Metabolism ,Golgi apparatus ,Lipid Metabolism ,Biosynthetic Pathways ,Gastrointestinal Microbiome ,Liver Glycogen ,Mice, Inbred C57BL ,carbohydrates (lipids) ,Glutamine ,Glucose ,030104 developmental biology ,chemistry ,Biochemistry ,symbols ,biology.protein ,Energy Metabolism ,030217 neurology & neurosurgery ,Chromatography, Liquid - Abstract
De novo uridine-diphosphate-N-acetylglucosamine (UDP-GlcNAc) biosynthesis requires glucose, glutamine, acetyl-CoA and uridine, however GlcNAc salvaged from glycoconjugate turnover and dietary sources also makes a significant contribution to the intracellular pool. Herein we ask whether dietary GlcNAc regulates nutrient transport and intermediate metabolism in C57BL/6 mice by increasing UDP-GlcNAc and in turn Golgi N-glycan branching. GlcNAc added to the drinking water showed a dose-dependent increase in growth of young mice, while in mature adult mice fat and body-weight increased without affecting calorie-intake, activity, energy expenditure, or the microbiome. Oral GlcNAc increased hepatic UDP-GlcNAc and N-glycan branching on hepatic glycoproteins. Glucose homeostasis, hepatic glycogen, lipid metabolism and response to fasting were altered with GlcNAc treatment. In cultured cells GlcNAc enhanced uptake of glucose, glutamine and fatty-acids, and enhanced lipid synthesis, while inhibition of Golgi N-glycan branching blocked GlcNAc-dependent lipid accumulation. The N-acetylglucosaminyltransferase enzymes of the N-glycan branching pathway (Mgat1,2,4,5) display multistep ultrasensitivity to UDP-GlcNAc, as well as branching-dependent compensation. Indeed, oral GlcNAc rescued fat accumulation in lean Mgat5−/− mice and in cultured Mgat5−/− hepatocytes, consistent with N-glycan branching compensation. Our results suggest GlcNAc reprograms cellular metabolism by enhancing nutrient uptake and lipid storage through the UDP-GlcNAc supply to N-glycan branching pathway.
- Published
- 2016
28. Seasonal community succession of the phyllosphere microbiome
- Author
-
David S. Guttman, Julia K. Copeland, Mehdi Layeghifard, Pauline W. Wang, and Lijie Yuan
- Subjects
Crops, Agricultural ,DNA, Bacterial ,Canada ,Physiology ,Biodiversity ,Growing season ,Ecological succession ,Biology ,Soil ,Microbial ecology ,RNA, Ribosomal, 16S ,Microbiome ,Phylogeny ,Abiotic component ,Phaseolus ,Bacteria ,Ecology ,Microbiota ,fungi ,Brassica napus ,food and beverages ,General Medicine ,Sequence Analysis, DNA ,Plant Components, Aerial ,Plant Leaves ,Taxon ,Host-Pathogen Interactions ,Seasons ,Soybeans ,Phyllosphere ,Agronomy and Crop Science - Abstract
The leaf microbiome is influenced by both biotic and abiotic factors. Currently, we know little about the relative importance of these factors in determining microbiota composition and dynamics. To explore this issue, we collected weekly leaf samples over a 98-day growing season from multiple cultivars of common bean, soybean, and canola planted at three locations in Ontario, Canada, and performed Illumina-based microbiome analysis. We find that the leaf microbiota at the beginning of the season is very strongly influenced by the soil microbiota but, as the season progresses, it differentiates, becomes significantly less diverse, and transitions to having a greater proportion of leaf-specific taxa that are shared among all samples. A phylogenetic investigation of communities by reconstruction of unobserved states imputation of microbiome function inferred from the taxonomic data found significant differences between the soil and leaf microbiome, with a significant enrichment of motility gene categories in the former and metabolic gene categories in the latter. A network co-occurrence analysis identified two highly connected clusters as well as subclusters of putative pathogens and growth-promoting bacteria. These data reveal some of the complex ecological dynamics that occur in microbial communities over the course of a growing season and highlight the importance of community succession.
- Published
- 2015
29. Global Analysis of the Fungal Microbiome in Cystic Fibrosis Patients Reveals Loss of Function of the Transcriptional Repressor Nrg1 as a Mechanism of Pathogen Adaptation
- Author
-
Pauline W. Wang, David S. Guttman, Ron Ammar, Corey Nislow, Leah E. Cowen, Shawn T. Clark, Anuradha Surendra, D. Elizabeth Tullis, David M. Hwang, Cathy Collins, Sang Hu Kim, and Julia K. Copeland
- Subjects
lcsh:Immunologic diseases. Allergy ,Cystic Fibrosis ,Neuregulin-1 ,Immunology ,Population ,Adaptation, Biological ,Antifungal drug ,medicine.disease_cause ,Microbiology ,Cystic fibrosis ,Drug Resistance, Fungal ,Virology ,Genetics ,medicine ,Humans ,Pseudomonas Infections ,Microbiome ,education ,Candida albicans ,lcsh:QH301-705.5 ,Molecular Biology ,education.field_of_study ,biology ,Pseudomonas aeruginosa ,Microbiota ,Fungi ,Sputum ,Fungal genetics ,biology.organism_classification ,medicine.disease ,3. Good health ,lcsh:Biology (General) ,Mutation ,Parasitology ,Host adaptation ,lcsh:RC581-607 ,Research Article - Abstract
The microbiome shapes diverse facets of human biology and disease, with the importance of fungi only beginning to be appreciated. Microbial communities infiltrate diverse anatomical sites as with the respiratory tract of healthy humans and those with diseases such as cystic fibrosis, where chronic colonization and infection lead to clinical decline. Although fungi are frequently recovered from cystic fibrosis patient sputum samples and have been associated with deterioration of lung function, understanding of species and population dynamics remains in its infancy. Here, we coupled high-throughput sequencing of the ribosomal RNA internal transcribed spacer 1 (ITS1) with phenotypic and genotypic analyses of fungi from 89 sputum samples from 28 cystic fibrosis patients. Fungal communities defined by sequencing were concordant with those defined by culture-based analyses of 1,603 isolates from the same samples. Different patients harbored distinct fungal communities. There were detectable trends, however, including colonization with Candida and Aspergillus species, which was not perturbed by clinical exacerbation or treatment. We identified considerable inter- and intra-species phenotypic variation in traits important for host adaptation, including antifungal drug resistance and morphogenesis. While variation in drug resistance was largely between species, striking variation in morphogenesis emerged within Candida species. Filamentation was uncoupled from inducing cues in 28 Candida isolates recovered from six patients. The filamentous isolates were resistant to the filamentation-repressive effects of Pseudomonas aeruginosa, implicating inter-kingdom interactions as the selective force. Genome sequencing revealed that all but one of the filamentous isolates harbored mutations in the transcriptional repressor NRG1; such mutations were necessary and sufficient for the filamentous phenotype. Six independent nrg1 mutations arose in Candida isolates from different patients, providing a poignant example of parallel evolution. Together, this combined clinical-genomic approach provides a high-resolution portrait of the fungal microbiome of cystic fibrosis patient lungs and identifies a genetic basis of pathogen adaptation., Author Summary Microbial cells vastly outnumber human cells in our bodies, yet we are only beginning to understand how these microbes influence human health and disease. One disease for which microbial communities are especially important is cystic fibrosis, where persistent lung infections can be lethal. Fungi are associated with poor respiratory function, but how fungal communities change with disease progression or treatment remains enigmatic. Here, we assess the dynamics of fungal communities by combining high-throughput sequencing of sputum samples from 28 patients with detailed analysis of phenotypes and genotypes of 1,603 fungal isolates. We found stable communities dominated by Candida and Aspergillus, and diversity in traits important for host adaptation. Antifungal drug resistance varied largely between species, while morphogenesis varied within species. For Candida species, the capacity to transition between yeast and filaments is a key virulence trait that is normally regulated by inducing cues, however, 28 isolates grew as filaments without such cues. Filamentation was due to loss-of-function mutations in the transcriptional regulator NRG1 in most isolates, which conferred resistance to the filament-repressive effects of a common bacterial pathogen. This work provides a portrait of the fungal microbiome associated with a lethal disease, and illuminates a genetic basis of pathogen adaptation.
- Published
- 2015
30. Gut Microbial Metabolism Drives Transformation of Msh2-Deficient Colon Epithelial Cells
- Author
-
Rossanna C. Pezo, Stephen E. Girardin, William Wiley Navarre, Kaoru Geddes, Susan J. Robertson, Catherine J. Streutker, Sachin Kumar, Winfried Edelmann, Blerta Green, Dana J. Philpott, Brian C. Wilson, Anu Surendra, Heather Maughan, Alberto Martin, Stephen Rubino, Eduardo H. Moriyama, Antoaneta Belcheva, Julia K. Copeland, Thergiory Irrazabal, Thomas M.S. Wolever, Michael Milosevic, and David S. Guttman
- Subjects
Colorectal cancer ,Cell ,Microbial metabolism ,Gut flora ,DNA Mismatch Repair ,Mice ,Mismatch Repair Pathway ,0302 clinical medicine ,beta Catenin ,0303 health sciences ,Nuclear Proteins ,Specific Pathogen-Free Organisms ,3. Good health ,Cell biology ,Butyrates ,Cell Transformation, Neoplastic ,MutS Homolog 2 Protein ,medicine.anatomical_structure ,030220 oncology & carcinogenesis ,DNA mismatch repair ,030211 gastroenterology & hepatology ,Colorectal Neoplasms ,MutL Protein Homolog 1 ,Adenomatous polyposis coli ,Adenomatous Polyposis Coli Protein ,Colonic Polyps ,Butyrate ,Biology ,Article ,General Biochemistry, Genetics and Molecular Biology ,03 medical and health sciences ,Dietary Carbohydrates ,medicine ,Animals ,neoplasms ,Adaptor Proteins, Signal Transducing ,Cell Proliferation ,030304 developmental biology ,Inflammation ,Biochemistry, Genetics and Molecular Biology(all) ,Cell growth ,Epithelial Cells ,biology.organism_classification ,medicine.disease ,digestive system diseases ,Mice, Inbred C57BL ,Transformation (genetics) ,MSH2 ,Immunology ,biology.protein ,Cancer research - Abstract
The etiology of colorectal cancer (CRC) has been linked to deficiencies in mismatch repair and adenomatous polyposis coli (APC) proteins, diet, inflammatory processes, and gut microbiota. However, the mechanism through which the microbiota synergizes with these etiologic factors to promote CRC is not clear. We report that altering the microbiota composition reduces CRC in APC(Min/+)MSH2(-/-) mice, and that a diet reduced in carbohydrates phenocopies this effect. Gut microbes did not induce CRC in these mice through an inflammatory response or the production of DNA mutagens but rather by providing carbohydrate-derived metabolites such as butyrate that fuel hyperproliferation of MSH2(-/-) colon epithelial cells. Further, we provide evidence that the mismatch repair pathway has a role in regulating β-catenin activity and modulating the differentiation of transit-amplifying cells in the colon. These data thereby provide an explanation for the interaction between microbiota, diet, and mismatch repair deficiency in CRC induction. PAPERCLIP
- Published
- 2014
31. Global Analysis of the Fungal Microbiome in Cystic Fibrosis Patients Reveals Loss of Function of the Transcriptional Repressor Nrg1 as a Mechanism of Pathogen Adaptation.
- Author
-
Sang Hu Kim, Shawn T Clark, Anuradha Surendra, Julia K Copeland, Pauline W Wang, Ron Ammar, Cathy Collins, D Elizabeth Tullis, Corey Nislow, David M Hwang, David S Guttman, and Leah E Cowen
- Subjects
Immunologic diseases. Allergy ,RC581-607 ,Biology (General) ,QH301-705.5 - Abstract
The microbiome shapes diverse facets of human biology and disease, with the importance of fungi only beginning to be appreciated. Microbial communities infiltrate diverse anatomical sites as with the respiratory tract of healthy humans and those with diseases such as cystic fibrosis, where chronic colonization and infection lead to clinical decline. Although fungi are frequently recovered from cystic fibrosis patient sputum samples and have been associated with deterioration of lung function, understanding of species and population dynamics remains in its infancy. Here, we coupled high-throughput sequencing of the ribosomal RNA internal transcribed spacer 1 (ITS1) with phenotypic and genotypic analyses of fungi from 89 sputum samples from 28 cystic fibrosis patients. Fungal communities defined by sequencing were concordant with those defined by culture-based analyses of 1,603 isolates from the same samples. Different patients harbored distinct fungal communities. There were detectable trends, however, including colonization with Candida and Aspergillus species, which was not perturbed by clinical exacerbation or treatment. We identified considerable inter- and intra-species phenotypic variation in traits important for host adaptation, including antifungal drug resistance and morphogenesis. While variation in drug resistance was largely between species, striking variation in morphogenesis emerged within Candida species. Filamentation was uncoupled from inducing cues in 28 Candida isolates recovered from six patients. The filamentous isolates were resistant to the filamentation-repressive effects of Pseudomonas aeruginosa, implicating inter-kingdom interactions as the selective force. Genome sequencing revealed that all but one of the filamentous isolates harbored mutations in the transcriptional repressor NRG1; such mutations were necessary and sufficient for the filamentous phenotype. Six independent nrg1 mutations arose in Candida isolates from different patients, providing a poignant example of parallel evolution. Together, this combined clinical-genomic approach provides a high-resolution portrait of the fungal microbiome of cystic fibrosis patient lungs and identifies a genetic basis of pathogen adaptation.
- Published
- 2015
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.