27 results on '"Helena Mendes-Soares"'
Search Results
2. Influence of Vaginal Bacteria and d- and l-Lactic Acid Isomers on Vaginal Extracellular Matrix Metalloproteinase Inducer: Implications for Protection against Upper Genital Tract Infections
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Steven S. Witkin, Helena Mendes-Soares, Iara M. Linhares, Aswathi Jayaram, William J. Ledger, and Larry J. Forney
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Microbiology ,QR1-502 - Published
- 2014
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3. Influence of Vaginal Bacteria and d- and l-Lactic Acid Isomers on Vaginal Extracellular Matrix Metalloproteinase Inducer: Implications for Protection against Upper Genital Tract Infections
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Steven S. Witkin, Helena Mendes-Soares, Iara M. Linhares, Aswathi Jayaram, William J. Ledger, and Larry J. Forney
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Microbiology ,QR1-502 - Abstract
ABSTRACT We evaluated levels of vaginal extracellular matrix metalloproteinase inducer (EMMPRIN) and matrix metalloproteinase (MMP-8) in vaginal secretions in relation to the composition of vaginal bacterial communities and d- and l-lactic acid levels. The composition of vaginal bacterial communities in 46 women was determined by pyrosequencing the V1 to V3 region of 16S rRNA genes. Lactobacilli were dominant in 71.3% of the women, followed by Gardnerella (17.4%), Streptococcus (8.7%), and Enterococcus (2.2%). Of the lactobacillus-dominated communities, 51.5% were dominated by Lactobacillus crispatus, 36.4% by Lactobacillus iners, and 6.1% each by Lactobacillus gasseri and Lactobacillus jensenii. Concentrations of l-lactic acid were slightly higher in lactobacillus-dominated vaginal samples, but most differences were not statistically significant. d-Lactic acid levels were higher in samples containing L. crispatus than in those with L. iners (P < 0.0001) or Gardnerella (P = 0.0002). The relative proportion of d-lactic acid in vaginal communities dominated by species of lactobacilli was in concordance with the proportions found in axenic cultures of the various species grown in vitro. Levels of l-lactic acid (P < 0.0001) and the ratio of l-lactic acid to d-lactic acid (P = 0.0060), but not concentrations of d-lactic acid, were also correlated with EMMPRIN concentrations. Moreover, vaginal concentrations of EMMPRIN and MMP-8 levels were highly correlated (P < 0.0001). Taken together, the data suggest the relative proportion of l- to d-lactic acid isomers in the vagina may influence the extent of local EMMPRIN production and subsequent induction of MMP-8. The expression of these proteins may help determine the ability of bacteria to transverse the cervix and initiate upper genital tract infections. IMPORTANCE A large proportion of preterm births (>50%) result from infections caused by bacteria originating in the vagina, which requires that they traverse the cervix. Factors that influence susceptibility to these infections are not well understood; however, there is evidence that matrix metalloproteinase (MMP-8) is known to alter the integrity of the cervix. In this work, we show that concentrations of vaginal extracellular matrix metalloproteinase inducer (EMMPRIN) are influenced by members of the vaginal microbial community and concentrations of d- or l-lactic acid isomers in vaginal secretions. Elevated levels of d-lactic acid and the ratio of d- to l-lactic acid influence EMMPRIN concentrations as well as MMP-8 levels. Thus, isomers of lactic acid may function as signaling molecules that alter host gene expression and influence risk of infection-related preterm birth.
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- 2013
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4. Temperate bacterial viruses as double-edged swords in bacterial warfare.
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João Alves Gama, Ana Maria Reis, Iolanda Domingues, Helena Mendes-Soares, Ana Margarida Matos, and Francisco Dionisio
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Medicine ,Science - Abstract
It has been argued that bacterial cells may use their temperate viruses as biological weapons. For instance, a few bacterial cells among a population of lysogenic cells could release the virus and kill susceptible non-lysogenic competitors, while their clone mates would be immune. Because viruses replicate inside their victims upon infection, this process would amplify their number in the arena. Sometimes, however, temperate viruses spare recipient cells from death by establishing themselves in a dormant state inside cells. This phenomenon is called lysogenization and, for some viruses such as the λ virus, the probability of lysogenization increases with the multiplicity of infection. Therefore, the amplification of viruses leads to conflicting predictions about the efficacy of temperate viruses as biological weapons: amplification can increase the relative advantage of clone mates of lysogens but also the likelihood of saving susceptible cells from death, because the probability of lysogenization is higher. To test the usefulness of viruses as biological weapons, we performed competition experiments between lysogenic Escherichia coli cells carrying the λ virus and susceptible λ-free E. coli cells, either in a structured or unstructured habitat. In structured and sometimes in unstructured habitats, the λ virus qualitatively behaved as a "replicating toxin". However, such toxic effect of λ viruses ceased after a few days of competition. This was due to the fact that many of initially susceptible cells became lysogenic. Massive lysogenization of susceptible cells occurred precisely under the conditions where the amplification of the virus was substantial. From then on, these cells and their descendants became immune to the λ virus. In conclusion, if at short term bacterial cells may use temperate viruses as biological weapons, after a few days only the classical view of temperate bacterial viruses as parasitic agents prevails.
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- 2013
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5. Mackinac: a bridge between ModelSEED and COBRApy to generate and analyze genome-scale metabolic models.
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Michael B. Mundy, Helena Mendes-Soares, and Nicholas Chia
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- 2017
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6. Amplification of Femtograms of Bacterial DNA Within 3 h Using a Digital Microfluidics Platform for MinION Sequencing
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Nicholas Chia, Yuguang Liu, Heidi Nelson, Thao L. Masters, Marina Walther-Antonio, Abigail E. Asangba, Helena Mendes-Soares, Robin Patel, and Patricio Jeraldo
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Whole genome sequencing ,Whole Genome Amplification ,General Chemical Engineering ,Microfluidics ,General Chemistry ,Computational biology ,Biology ,Article ,Corynebacterium glutamicum ,chemistry.chemical_compound ,Chemistry ,chemistry ,Minion ,Digital microfluidics ,Nanopore sequencing ,QD1-999 ,DNA - Abstract
Whole genome sequencing is emerging as a promising tool for the untargeted detection of a broad range of microbial species for diagnosis and analysis. However, it is logistically challenging to perform the multistep process from sample preparation to DNA amplification to sequencing and analysis within a short turnaround time. To address this challenge, we developed a digital microfluidic device for rapid whole genome amplification of low-abundance bacterial DNA and compared results with conventional in-tube DNA amplification. In this work, we chose Corynebacterium glutamicum DNA as a bacterial target for method development and optimization, as it is not a common contaminant. Sequencing was performed in a hand-held Oxford Nanopore Technologies MinION sequencer. Our results show that using an in-tube amplification approach, at least 1 pg starting DNA is needed to reach the amount required for successful sequencing within 2 h. While using a digital microfluidic device, it is possible to amplify as low as 10 fg of C. glutamicum DNA (equivalent to the amount of DNA within a single bacterial cell) within 2 h and to identify the target bacterium within 30 min of MinION sequencing—100× lower than the detection limit of an in-tube amplification approach. We demonstrate the detection of C. glutamicum DNA in a mock community DNA sample and characterize the limit of bacterial detection in the presence of human cells. This approach can be used to identify microbes with minute amounts of genetic material in samples depleted of human cells within 3 h.
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- 2021
7. Composition, diversity and potential utility of intervention-naïve pancreatic cancer intratumoral microbiome signature profiling via endoscopic ultrasound
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Nicholas Chia, Michael J. Levy, Darrell S. Pardi, Helena Mendes-Soares, Benjamin R. Kipp, Ferga C. Gleeson, Sahil Khanna, Patricio Jeraldo, Giannoula Karagouga, Ana Garcia Garcia Deparedes, Stephanie D. Song, Stephen J. Murphy, and Alexa McCune
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0301 basic medicine ,Pancreatic duct ,business.industry ,Gastroenterology ,medicine.disease ,Immune checkpoint ,Major duodenal papilla ,03 medical and health sciences ,030104 developmental biology ,0302 clinical medicine ,medicine.anatomical_structure ,Pancreatic cancer ,Cancer research ,Medicine ,Pancreatitis ,030211 gastroenterology & hepatology ,Microbiome ,business ,Pancreas ,Dysbiosis - Abstract
We read with great interest the recent article by Cheng et al that discussed the topic of gut microbiome modulation, which may promote sensitivity or resistance to chemotherapeutic agents or immune checkpoint inhibitors.1 Historically, the pancreas was considered to be a sterile organ; however, bacterial DNA has been detected in 76% of surgically resected pancreatic ductal adenocarcinoma (PDAC) samples, some of which had prior biliary instrumentation, and in 15% of normal pancreas controls.2 3 It is unknown how bacteria may colonise the pancreas, but some have postulated bacterial reflux into the pancreatic duct via the major/minor papilla as a possibility and by dysbiosis due to pancreatitis, obesity, smoking and diabetes, as it alters gut permeability.4 5 Intratumoral microbiome composition may also impact therapeutic drug sensitivity and disease survival.6 The presence of PDAC intratumoral Gammaproteobacteria has the potential to inactivate gemcitabine sensitivity via the bacterial enzyme cytidine deaminase.7 Conversely, Bifidobacterium is believed to promote beneficial effects on …
- Published
- 2021
8. Model of personalized postprandial glycemic response to food developed for an Israeli cohort predicts responses in Midwestern American individuals
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Yossi Cohen, Purna C. Kashyap, Lihi Segal, Josh Stevens, Heidi Nelson, Davidi Bachrach, Yatir Ben-Shlomo, Shahar Azulay, Tal Ofek, Helena Mendes-Soares, and Tali Raveh-Sadka
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0301 basic medicine ,Gerontology ,Calorie ,Carbohydrate Metabolism and Diabetes ,Population ,Psychological intervention ,microbiome ,Medicine (miscellaneous) ,030209 endocrinology & metabolism ,Disease ,Lower risk ,03 medical and health sciences ,0302 clinical medicine ,Medicine ,personalized nutrition ,education ,Glycemic ,education.field_of_study ,Nutrition and Dietetics ,diabetes ,business.industry ,digestive, oral, and skin physiology ,Original Research Communications ,030104 developmental biology ,Postprandial ,Cohort ,continuous glucose monitors ,business ,glycemic response ,carbohydrate content - Abstract
Background Controlled glycemic concentrations are associated with a lower risk of conditions such as cardiovascular disease and diabetes. Models commonly used to guide interventions to control the glycemic response to food have low efficacy, with recent clinical guidelines arguing for the use of personalized approaches. Objective We tested the efficacy of a predictive model of personalized postprandial glycemic response to foods that was developed with an Israeli cohort and that takes into consideration food components and specific features, including the microbiome, when applied to individuals from the Midwestern US. Design We recruited 327 individuals for this study. Participants provided information regarding lifestyle, dietary habits, and health, as well as a stool sample for characterization of their gut microbiome. Participants were connected to continuous glucose monitors for 6 d, and the glycemic response to meals logged during this time was computed. The ability of a model trained using meals logged by the Israeli cohort to correctly predict glycemic responses in the Midwestern cohort was assessed and compared with that of a model trained using meals logged by both cohorts. Results When trained on the Israeli cohort meals only, model performance for predicting responses of individuals in the Midwestern cohort was better (R = 0.596) than that observed for models taking into consideration the carbohydrate (R = 0.395) or calorie content of the meals alone (R = 0.336). Performance increased (R = 0.618) when the model was trained on meals from both cohorts, likely because of the observed differences in age distribution, diet, and microbiome. Conclusions We show that the modeling framework described in Zeevi et al. for an Israeli cohort is applicable to a Midwestern population, and outperforms commonly used approaches for the control of blood glucose responses. The adaptation of the model to the Midwestern cohort further enhances performance and is a promising means for designing effective nutritional interventions to control glycemic responses to foods. This trial was registered at clinicaltrials.gov as NCT02945514.
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- 2019
9. MMinte: an application for predicting metabolic interactions among the microbial species in a community.
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Helena Mendes-Soares, Michael B. Mundy, Luis Mendes Soares, and Nicholas Chia
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- 2016
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10. ID: 3518327 PANCREAS INTRA-TUMORAL MICROBIOME COMPOSITION AND DIVERSITY SIGNATURE PROFILING BY ENDOSCOPIC ULTRASOUND ANATOMIC LOCATION
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Ferga C. Gleeson, Darrell S. Pardi, Stephen J. Murphy, Benjamin R. Kipp, Giannoula Karagouga, Sahil Khanna, Alexa McCune, Nicholas Chia, Michael J. Levy, Helena Mendes-Soares, Ana García García de Paredes, and Patricio Jeraldo
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Endoscopic ultrasound ,medicine.anatomical_structure ,medicine.diagnostic_test ,business.industry ,Gastroenterology ,medicine ,Profiling (information science) ,Radiology, Nuclear Medicine and imaging ,Computational biology ,Microbiome ,Pancreas ,business ,Anatomic Location - Published
- 2021
11. Su305 ENDOSCOPIC ULTRASOUND FOR PANCREAS INTRATUMORAL MICROBIOME SIGNATURE PROFILING: COMPOSITION, DIVERSITY, AND POTENTIAL UTILITY
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Patricio Jeraldo, Giannoula Karagouga, Ferga C. Gleeson, Helena Mendes-Soares, Ana García García de Paredes, Stephen J. Murphy, Benjamin R. Kipp, Sahil Khanna, Darrell S. Pardi, Alexa McCune, Nicholas Chia, and Michael J. Levy
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Endoscopic ultrasound ,Profiling (computer programming) ,medicine.anatomical_structure ,Hepatology ,medicine.diagnostic_test ,Gastroenterology ,medicine ,Computational biology ,Microbiome ,Biology ,Pancreas - Published
- 2021
12. Genomic Comparisons of Lactobacillus crispatus and Lactobacillus iners Reveal Potential Ecological Drivers of Community Composition in the Vagina
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Michael T. France, Helena Mendes-Soares, and Larry J. Forney
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0301 basic medicine ,Niche ,Biodiversity ,Genomics ,Applied Microbiology and Biotechnology ,Evolution, Molecular ,03 medical and health sciences ,Phylogenetics ,Lactobacillus iners ,Humans ,Evolutionary and Genomic Microbiology ,Lactobacillus crispatus ,Phylogeny ,Ecological niche ,Ecology ,biology ,Species diversity ,biology.organism_classification ,Lactobacillus ,030104 developmental biology ,Vagina ,Female ,Genome, Bacterial ,Food Science ,Biotechnology - Abstract
Lactobacillus crispatus and Lactobacillus iners are common inhabitants of the healthy human vagina. These two species are closely related and are thought to perform similar ecological functions in the vaginal environment. Temporal data on the vaginal microbiome have shown that nontransient instances of cooccurrence are uncommon, while transitions from an L. iners -dominated community to one dominated by L. crispatus , and vice versa, occur often. This suggests that there is substantial overlap in the fundamental niches of these species. Given this apparent niche overlap, it is unclear how they have been maintained as common inhabitants of the human vagina. In this study, we characterized and compared the genomes of L. iners and L. crispatus to gain insight into possible mechanisms driving the maintenance of this species diversity. Our results highlight differences in the genomes of these two species that may facilitate the partitioning of their shared niche space. Many of the identified differences may impact the protective benefits provided to the host by these two species. IMPORTANCE The microbial communities that inhabit the human vagina play a critical role in the maintenance of vaginal health through the production of lactic acid and lowering the environmental pH. This precludes the growth of nonindigenous organisms and protects against infectious disease. The two most common types of vaginal communities are dominated by either Lactobacillus iners or Lactobacillus crispatus , while some communities alternate between the two over time. We combined ecological theory with state-of-the-art genome analyses to characterize how these two species might partition their shared niche space in the vagina. We show that the genomes of L. iners and L. crispatus differ in many respects, several of which may drive differences in their competitive abilities in the vagina. Our results provide insight into factors that drive the complicated temporal dynamics of the vaginal microbiome and demonstrate how closely related microbial species partition shared fundamental niche space.
- Published
- 2016
13. Assessment of a Personalized Approach to Predicting Postprandial Glycemic Responses to Food Among Individuals Without Diabetes
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Yossi Cohen, Heidi Nelson, Shahar Azulay, Kim Edens, Tal Ofek, Purna C. Kashyap, Dorin T. Colibaseanu, Helena Mendes-Soares, Tali Raveh-Sadka, Davidi Bachrach, Josh Stevens, Lihi Segal, and Yatir Ben-Shlomo
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Adult ,Blood Glucose ,Male ,Calorie ,Cohort Studies ,Environmental health ,Diabetes mellitus ,Medicine ,Humans ,Microbiome ,Precision Medicine ,Glycemic ,Original Investigation ,Models, Statistical ,business.industry ,General Medicine ,Anthropometry ,Middle Aged ,medicine.disease ,Postprandial Period ,Diet ,Postprandial ,Cohort ,Female ,business ,Cohort study - Abstract
Importance Emerging evidence suggests that postprandial glycemic responses (PPGRs) to food may be influenced by and predicted according to characteristics unique to each individual, including anthropometric and microbiome variables. Interindividual diversity in PPGRs to food requires a personalized approach for the maintenance of healthy glycemic levels. Objectives To describe and predict the glycemic responses of individuals to a diverse array of foods using a model that considers the physiology and microbiome of the individual in addition to the characteristics of the foods consumed. Design, Setting, and Participants This cohort study using a personalized predictive model enrolled 327 individuals without diabetes from October 11, 2016, to December 13, 2017, in Minnesota and Florida to be part of a study lasting 6 days. The study measured anthropometric variables, described the gut microbial composition, and assessed blood glucose levels every 5 minutes using a continuous glucose monitor. Participants logged their food and activity information for the duration of the study. A predictive model of individualized PPGRs to a diverse array of foods was trained and applied. Main Outcomes and Measures Glycemic responses to food consumed over 6 days for each participant. The predictive model of personalized PPGRs considered individual features, including the microbiome, in addition to the features of the foods consumed. Results Postprandial response to the same foods varied across 327 individuals (mean [SD] age, 45 [12] years; 78.0% female). A model predicting each individual’s responses to food that considers several individual factors in addition to food features had better overall performance (R = 0.62) than current standard-of-care approaches using nutritional content alone (R = 0.34 for calories andR = 0.40 for carbohydrates) to control postprandial glycemic levels. Conclusions and Relevance Across the cohort of adults without diabetes who were examined, a personalized predictive model that considers unique features of the individual, such as clinical characteristics, physiological variables, and the microbiome, in addition to nutrient content was more predictive than current dietary approaches that focus only on the calorie or carbohydrate content of foods. Providing individuals with tools to manage their glycemic responses to food based on personalized predictions of their PPGRs may allow them to maintain their blood glucose levels within limits associated with good health.
- Published
- 2019
14. Plasmid Acquisition Alters Vancomycin Susceptibility in Clostridioides difficile
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Gary M. Dunny, Gaurav K. Behera, Scott A. Cunningham, Robin Patel, Meng Pu, Jun Chen, Sarah Becker, Janice M. Cho, Purna C. Kashyap, Patricio Jeraldo, Yava Jones-Hall, Kerryl E. Greenwood-Quaintance, Talal Amjad, and Helena Mendes-Soares
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0301 basic medicine ,Severe disease ,Microbial Sensitivity Tests ,Article ,Microbiology ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Plasmid ,Antibiotic resistance ,Vancomycin ,Drug Resistance, Bacterial ,medicine ,Animals ,Germ-Free Life ,Humans ,In patient ,Gastrointestinal tract ,Whole Genome Sequencing ,Hepatology ,Clostridioides difficile ,business.industry ,Gastroenterology ,Anti-Bacterial Agents ,Disease Models, Animal ,030104 developmental biology ,Humanized mouse ,Clostridium Infections ,030211 gastroenterology & hepatology ,business ,Clostridioides ,Plasmids ,medicine.drug - Abstract
The increasing incidence of primary and recurring Clostridioides difficile infections (CDI), which evade current treatment strategies, reflects the changing biology of C difficile. Here, we describe a putative plasmid-mediated mechanism potentially driving decreased sensitivity of C difficile to vancomycin treatment. We identified a broad host range transferable plasmid in a C difficile strain associated with lack of adequate response to vancomycin treatment. The transfer of this plasmid to a vancomycin-susceptible C difficile isolate decreased its susceptibility to vancomycin in vitro and resulted in more severe disease in a humanized mouse model. Our findings suggest plasmid acquisition in the gastrointestinal tract to be a possible mechanism underlying vancomycin treatment failure in patients with CDI, but further work is needed to characterize the mechanism by which plasmid genes determine vancomycin susceptibility in C difficile.
- Published
- 2021
15. Mackinac: a bridge between ModelSEED and COBRApy to generate and analyze genome-scale metabolic models
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Nicholas Chia, Helena Mendes-Soares, and Michael B. Mundy
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0301 basic medicine ,Statistics and Probability ,Source code ,Computer science ,media_common.quotation_subject ,0206 medical engineering ,Genome scale ,Metabolic network ,02 engineering and technology ,Biochemistry ,Genome ,Models, Biological ,Bridge (nautical) ,03 medical and health sciences ,Software ,Metabolic potential ,Molecular Biology ,media_common ,computer.programming_language ,biology ,Bacteria ,business.industry ,Systems Biology ,Computational Biology ,Python (programming language) ,biology.organism_classification ,Applications Notes ,Computer Science Applications ,Computational Mathematics ,030104 developmental biology ,Computational Theory and Mathematics ,Software engineering ,business ,computer ,020602 bioinformatics ,Metabolic Networks and Pathways - Abstract
Summary: Reconstructing and analyzing a large number of genome-scale metabolic models is a fundamental part of the integrated study of microbial communities; however, two of the most widely used frameworks for building and analyzing models use different metabolic network representations. Here we describe Mackinac, a Python package that combines ModelSEED’s ability to automatically reconstruct metabolic models with COBRApy’s advanced analysis capabilities to bridge the differences between the two frameworks and facilitate the study of the metabolic potential of microorganisms. Availability and Implementation: This package works with Python 2.7, 3.4, and 3.5 on MacOS, Linux and Windows. The source code is available from https://github.com/mmundy42/mackinac. Contact: mundy.michael@mayo.edu or soares.maria@mayo.edu
- Published
- 2017
16. Comparative analysis of microbial community of novel lactic acid fermentation inoculated with different undefined mixed cultures
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Erik R. Coats, Shaobo Liang, Larry J. Forney, Armando G. McDonald, Matthew L. Settles, Helena Mendes-Soares, and Karol Gliniewicz
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Environmental Engineering ,Bioengineering ,Wastewater ,Water Purification ,chemistry.chemical_compound ,RNA, Ribosomal, 16S ,Lactobacillus ,Botany ,Biomass ,Lactic Acid ,Cities ,Waste Management and Disposal ,Phylogeny ,Illumina dye sequencing ,Bacteria ,biology ,Sequence Analysis, RNA ,Renewable Energy, Sustainability and the Environment ,food and beverages ,Biodiversity ,General Medicine ,biology.organism_classification ,Lactic acid ,Activated sludge ,chemistry ,Microbial population biology ,Fermentation ,Lactic acid fermentation - Abstract
Three undefined mixed cultures (activated sludge) from different municipal wastewater treatment plants were used as seeds in a novel lactic acid fermentation process fed with potato peel waste (PPW). Anaerobic sequencing batch fermenters were run under identical conditions to produce predominantly lactic acid. Illumina sequencing was used to examine the 16S rRNA genes of bacteria in the three seeds and fermenters. Results showed that the structure of microbial communities of three seeds were different. All three fermentation products had unique community structures that were dominated (>96%) by species of the genus Lactobacillus, while members of this genus constituted
- Published
- 2015
17. A SHIFT FROM MAGNITUDE TO SIGN EPISTASIS DURING ADAPTIVE EVOLUTION OF A BACTERIAL SOCIAL TRAIT
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Heike Keller, Korbinian Schneeberger, Gregory J. Velicer, Stephan Ossowski, Peter C. Zee, Helena Mendes-Soares, Yuen-Tsu Nicco Yu, and Susanne A. Kraemer
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Genetics ,Experimental evolution ,Genetic Fitness ,Epistasis and functional genomics ,Context (language use) ,Biology ,Genetic architecture ,Evolutionary biology ,Mutation (genetic algorithm) ,Epistasis ,Adaptation ,General Agricultural and Biological Sciences ,Ecology, Evolution, Behavior and Systematics - Abstract
Although the importance of epistasis in evolution has long been recognized, remarkably little is known about the processes by which epistatic interactions evolve in real time in specific biological systems. Here, we have characterized how the epistatic fitness relationship between a social gene and an adapting genome changes radically over a short evolutionary time frame in the social bacterium Myxococcus xanthus. We show that a highly beneficial effect of this social gene in the ancestral genome is gradually reduced--and ultimately reversed into a deleterious effect--over the course of an experimental adaptive trajectory in which a primitive form of novel cooperation evolved. This reduction and reversal of a positive social allelic effect is driven solely by changes in the genetic context in which the gene is expressed as new mutations are sequentially fixed during adaptive evolution, and explicitly demonstrates a significant evolutionary change in the genetic architecture of an ecologically important social trait.
- Published
- 2014
18. Comparative Functional Genomics of Lactobacillus spp. Reveals Possible Mechanisms for Specialization of Vaginal Lactobacilli to Their Environment
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Haruo Suzuki, Larry J. Forney, Helena Mendes-Soares, and Roxana J. Hickey
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Zoology ,Genomics ,Microbiology ,Genome ,Bacterial Proteins ,Phylogenetics ,Lactobacillus ,medicine ,Humans ,Molecular Biology ,Ecosystem ,Phylogeny ,Lactobacillus crispatus ,biology ,Articles ,biology.organism_classification ,Gastrointestinal Tract ,medicine.anatomical_structure ,Vagina ,Food Microbiology ,Female ,Adaptation ,Genome, Bacterial ,GC-content - Abstract
Lactobacilli are found in a wide variety of habitats. Four species, Lactobacillus crispatus , L. gasseri , L. iners , and L. jensenii , are common and abundant in the human vagina and absent from other habitats. These may be adapted to the vagina and possess characteristics enabling them to thrive in that environment. Furthermore, stable codominance of multiple Lactobacillus species in a single community is infrequently observed. Thus, it is possible that individual vaginal Lactobacillus species possess unique characteristics that confer to them host-specific competitive advantages. We performed comparative functional genomic analyses of representatives of 25 species of Lactobacillus , searching for habitat-specific traits in the genomes of the vaginal lactobacilli. We found that the genomes of the vaginal species were significantly smaller and had significantly lower GC content than those of the nonvaginal species. No protein families were found to be specific to the vaginal species analyzed, but some were either over- or underrepresented relative to nonvaginal species. We also found that within the vaginal species, each genome coded for species-specific protein families. Our results suggest that even though the vaginal species show no general signatures of adaptation to the vaginal environment, each species has specific and perhaps unique ways of interacting with its environment, be it the host or other microbes in the community. These findings will serve as a foundation for further exploring the role of lactobacilli in the ecological dynamics of vaginal microbial communities and their ultimate impact on host health.
- Published
- 2014
19. Community metabolic modeling approaches to understanding the gut microbiome: bridging biochemistry and ecology
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Helena Mendes-Soares and Nicholas Chia
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0301 basic medicine ,medicine.medical_treatment ,Ecology (disciplines) ,0206 medical engineering ,02 engineering and technology ,Biology ,Biochemistry ,Models, Biological ,Article ,03 medical and health sciences ,Data sequences ,Community dynamics ,Physiology (medical) ,medicine ,Metabolic modeling ,Animals ,Humans ,Microbiome ,Ecology ,Prebiotic ,Human microbiome ,Gut microbiome ,Gastrointestinal Microbiome ,Gastrointestinal Tract ,030104 developmental biology ,Microbial Interactions ,020602 bioinformatics ,Metabolic Networks and Pathways - Abstract
Interest in the human microbiome is at an all time high. The number of human microbiome studies is growing exponentially, as are reported associations between microbial communities and disease. However, we have not been able to translate the ever-growing amount of microbiome sequence data into better health. To do this, we need a practical means of transforming a disease-associated microbiome into a health-associated microbiome. This will require a framework that can be used to generate predictions about community dynamics within the microbiome under different conditions, predictions that can be tested and validated. In this review, using the gut microbiome to illustrate, we describe two classes of model that are currently being used to generate predictions about microbial community dynamics: ecological models and metabolic models. We outline the strengths and weaknesses of each approach and discuss the insights into the gut microbiome that have emerged from modeling thus far. We then argue that the two approaches can be combined to yield a community metabolic model, which will supply the framework needed to move from high-throughput omics data to testable predictions about how prebiotic, probiotic, and nutritional interventions affect the microbiome. We are confident that with a suitable model, researchers and clinicians will be able to harness the stream of sequence data and begin designing strategies to make targeted alterations to the microbiome and improve health.
- Published
- 2016
20. Decomposing Predation: Testing for Parameters that Correlate with Predatory Performance by a Social Bacterium
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Helena Mendes-Soares and Gregory J. Velicer
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Myxococcus xanthus ,Food Chain ,Ecology ,biology ,Swarming (honey bee) ,Soil Science ,Swarming motility ,Population biology ,biology.organism_classification ,Article ,Predation ,Food chain ,behavior and behavior mechanisms ,Population growth ,Predator ,Soil Microbiology ,Ecology, Evolution, Behavior and Systematics - Abstract
Predator-prey interactions presumably play major roles in shaping the composition and dynamics of microbial communities. However, little is understood about the population biology of such interactions or how predation-related parameters vary or correlate across prey environments. Myxococcus xanthus is a motile soil bacterium that feeds on a broad range of other soil microbes that vary greatly in the degree to which they support M. xanthus growth. In order to decompose predator-prey interactions at the population level, we quantified five predation-related parameters during M. xanthus growth on nine phylogenetically diverse bacterial prey species. The horizontal expansion rate of swarming predator colonies fueled by prey lawns served as our measure of overall predatory performance, as it incorporates both the searching (motility) and handling (killing and consumption of prey) components of predation. Four other parameters – predator population growth rate, maximum predator yield, maximum prey kill, and overall rate of prey death – were measured from homogeneously mixed predator-prey lawns from which predator populations were not allowed to expand horizontally by swarming motility. All prey species fueled predator population growth. For some prey, predator-specific prey death was detected contemporaneously with predator population growth, whereas killing of other prey species was detected only after cessation of predator growth. All four of the alternative parameters were found to correlate significantly with predator swarm expansion rate to varying degrees, suggesting causal inter-relationships among these diverse predation measures. More broadly, our results highlight the importance of examining multiple parameters for thoroughly understanding the population biology of microbial predation.
- Published
- 2012
21. Spiteful Interactions in a Natural Population of the BacteriumXenorhabdus bovienii
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Hadas Hawlena, Farrah Bashey, Curtis M. Lively, and Helena Mendes-Soares
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Nematoda ,biology ,Ecology ,Genetic Variation ,Species diversity ,Zoology ,Xenorhabdus ,Xenorhabdus bovienii ,Moths ,biology.organism_classification ,medicine.disease_cause ,Bacteriocins ,Natural population growth ,Bacteriocin ,Genetic variation ,medicine ,Spite ,Animals ,Ecology, Evolution, Behavior and Systematics ,Bacteria - Abstract
An individual behaves spitefully when it harms itself in the act of harming other individuals. One of the clearest potential examples of spite is the costly production and release of toxins called bacteriocins. Bacteriocins are toxins produced by bacteria that can kill closely related strains of the same species. Theoretical work has predicted that bacteriocin-mediated interactions could play an important role in maintaining local genetic and/or species diversity, but these interactions have not been studied at biologically relevant scales in nature. Here we studied toxin production and among-strain inhibitions in a natural population of Xenorhabdus bovienii. We found genetic differences and inhibitions between colonies that were collected only a few meters apart. These results suggest that spite exists in natural populations of bacteria.
- Published
- 2010
22. Differences in swimming and diving abilities between two sympatric species of water shrews: Neomys anomalus and Neomys fodiens (Soricidae)
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Leszek Rychlik and Helena Mendes-Soares
- Subjects
Sympatry ,Ecological niche ,Neomys anomalus ,biology ,Ecology ,Range (biology) ,Animal ecology ,Insectivora ,Foraging ,Animal Science and Zoology ,Neomys ,biology.organism_classification ,Ecology, Evolution, Behavior and Systematics - Abstract
Swimming and diving abilities of two syntopic species of water shrews, Neomys anomalus and Neomys fodiens, were tested in aquaria using video recordings taken from three views (lateral distant, lateral close and dorsal). The frequency and total duration of diving, as well as the mean duration of diving and floating bouts, were significantly higher in N. fodiens than in N. anomalus. Frequency of paddling during surface swimming was lower in N. fodiens than in N. anomalus. N. fodiens dived mainly for long distances at the bottom of the aquarium and performed a wider range of dive profiles than N. anomalus, which preferred rather short and shallow dives. The two species differed also significantly in their fineness ratios (describing how streamlined their bodies are) when diving. When swimming, N. fodiens had a relatively wider body and performed narrower movements with its tail than N. anomalus. These results show quantitatively and qualitatively for the first time that N. fodiens is more proficient at swimming and diving than N. anomalus. The results also help to explain the inter-specific differences in efficiency of underwater foraging, and support the idea of segregation of ecological niches of these species based on their different foraging modes (diving vs. wading).
- Published
- 2008
23. Fine-scale analysis of 16S rRNA sequences reveals a high level of taxonomic diversity among vaginal Atopobium spp
- Author
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Vandhana Krishnan, Jacques Ravel, Matthew L. Settles, Helena Mendes-Soares, Larry J. Forney, and Celeste J. Brown
- Subjects
DNA, Bacterial ,Microbiology (medical) ,Atopobium ,Zoology ,Atopobium vaginae ,Biology ,DNA, Ribosomal ,Genus ,RNA, Ribosomal, 16S ,medicine ,Humans ,Immunology and Allergy ,Clade ,Genetic diversity ,General Immunology and Microbiology ,Phylogenetic tree ,Ecology ,Computational Biology ,Genetic Variation ,Sequence Analysis, DNA ,General Medicine ,biology.organism_classification ,medicine.disease ,16S ribosomal RNA ,Healthy Volunteers ,Actinobacteria ,Infectious Diseases ,Vagina ,Female ,Bacterial vaginosis ,Research Article - Abstract
Although vaginal microbial communities of some healthy women have high proportions of Atopobium vaginae, the genus Atopobium is more commonly associated with bacterial vaginosis, a syndrome associated with an increased risk of adverse pregnancy outcomes and the transmission of sexually transmitted diseases. Genetic differences within Atopobium species may explain why single species can be associated with both health and disease. We used 16S rRNA gene sequences from previously published studies to explore the taxonomic diversity of the genus Atopobium in vaginal microbial communities of healthy women. Although A. vaginae was the species most commonly found, we also observed three other Atopobium species in the vaginal microbiota, one of which, A. parvulum, was not previously known to reside in the human vagina. Furthermore, we found several potential novel species of the genus Atopobium and multiple phylogenetic clades of A. vaginae. The diversity of Atopobium found in our study, which focused only on samples from healthy women, is greater than previously recognized, suggesting that analysis of samples from women with BV would yield even more diversity. Classification of microbes only to the genus level may thus obfuscate differences that might be important to better understand health or disease.
- Published
- 2015
24. A shift from magnitude to sign epistasis during adaptive evolution of a bacterial social trait
- Author
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Peter C, Zee, Helena, Mendes-Soares, Yuen-Tsu N, Yu, Susanne A, Kraemer, Heike, Keller, Stephan, Ossowski, Korbinian, Schneeberger, and Gregory J, Velicer
- Subjects
Myxococcus xanthus ,Movement ,Mutation ,Epistasis, Genetic ,Genetic Fitness ,Adaptation, Physiological ,Biological Evolution - Abstract
Although the importance of epistasis in evolution has long been recognized, remarkably little is known about the processes by which epistatic interactions evolve in real time in specific biological systems. Here, we have characterized how the epistatic fitness relationship between a social gene and an adapting genome changes radically over a short evolutionary time frame in the social bacterium Myxococcus xanthus. We show that a highly beneficial effect of this social gene in the ancestral genome is gradually reduced--and ultimately reversed into a deleterious effect--over the course of an experimental adaptive trajectory in which a primitive form of novel cooperation evolved. This reduction and reversal of a positive social allelic effect is driven solely by changes in the genetic context in which the gene is expressed as new mutations are sequentially fixed during adaptive evolution, and explicitly demonstrates a significant evolutionary change in the genetic architecture of an ecologically important social trait.
- Published
- 2014
25. Influence of Vaginal Bacteria and <scp>d</scp> - and <scp>l</scp> -Lactic Acid Isomers on Vaginal Extracellular Matrix Metalloproteinase Inducer: Implications for Protection against Upper Genital Tract Infections
- Author
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William J. Ledger, Iara M. Linhares, Helena Mendes-Soares, Aswathi Jayaram, Steven S. Witkin, and Larry J. Forney
- Subjects
Adult ,Genital Tract Infections ,Lactobacillus gasseri ,Reproductive Tract Infections ,Microbiology ,Extracellular matrix ,Young Adult ,chemistry.chemical_compound ,Virology ,medicine ,Lactobacillus iners ,Humans ,Inducer ,Lactic Acid ,Author Correction ,Cervix ,Metalloproteinase ,Bacteria ,biology ,Lactobacillus crispatus ,Lactobacillus jensenii ,food and beverages ,Stereoisomerism ,biology.organism_classification ,Biota ,QR1-502 ,Lactic acid ,Matrix Metalloproteinase 8 ,medicine.anatomical_structure ,chemistry ,Vagina ,Basigin ,Female ,Research Article - Abstract
We evaluated levels of vaginal extracellular matrix metalloproteinase inducer (EMMPRIN) and matrix metalloproteinase (MMP-8) in vaginal secretions in relation to the composition of vaginal bacterial communities and d- and l-lactic acid levels. The composition of vaginal bacterial communities in 46 women was determined by pyrosequencing the V1 to V3 region of 16S rRNA genes. Lactobacilli were dominant in 71.3% of the women, followed by Gardnerella (17.4%), Streptococcus (8.7%), and Enterococcus (2.2%). Of the lactobacillus-dominated communities, 51.5% were dominated by Lactobacillus crispatus, 36.4% by Lactobacillus iners, and 6.1% each by Lactobacillus gasseri and Lactobacillus jensenii. Concentrations of l-lactic acid were slightly higher in lactobacillus-dominated vaginal samples, but most differences were not statistically significant. d-Lactic acid levels were higher in samples containing L. crispatus than in those with L. iners (P < 0.0001) or Gardnerella (P = 0.0002). The relative proportion of d-lactic acid in vaginal communities dominated by species of lactobacilli was in concordance with the proportions found in axenic cultures of the various species grown in vitro. Levels of l-lactic acid (P < 0.0001) and the ratio of l-lactic acid to d-lactic acid (P = 0.0060), but not concentrations of d-lactic acid, were also correlated with EMMPRIN concentrations. Moreover, vaginal concentrations of EMMPRIN and MMP-8 levels were highly correlated (P < 0.0001). Taken together, the data suggest the relative proportion of l- to d-lactic acid isomers in the vagina may influence the extent of local EMMPRIN production and subsequent induction of MMP-8. The expression of these proteins may help determine the ability of bacteria to transverse the cervix and initiate upper genital tract infections., IMPORTANCE A large proportion of preterm births (>50%) result from infections caused by bacteria originating in the vagina, which requires that they traverse the cervix. Factors that influence susceptibility to these infections are not well understood; however, there is evidence that matrix metalloproteinase (MMP-8) is known to alter the integrity of the cervix. In this work, we show that concentrations of vaginal extracellular matrix metalloproteinase inducer (EMMPRIN) are influenced by members of the vaginal microbial community and concentrations of d- or l-lactic acid isomers in vaginal secretions. Elevated levels of d-lactic acid and the ratio of d- to l-lactic acid influence EMMPRIN concentrations as well as MMP-8 levels. Thus, isomers of lactic acid may function as signaling molecules that alter host gene expression and influence risk of infection-related preterm birth.
- Published
- 2013
26. Temperate bacterial viruses as double-edged swords in bacterial warfare
- Author
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Ana Margarida Matos, Iolanda Domingues, João Alves Gama, Helena Mendes-Soares, Ana Maria Reis, and Francisco Dionisio
- Subjects
viruses ,Science ,Population ,Biology ,Microbiology ,Virus ,Microbial Ecology ,03 medical and health sciences ,Behavioral Ecology ,Multiplicity of infection ,Immune system ,Model Organisms ,Bacteriolysis ,Lysogen ,Lysogenic cycle ,Biological Warfare ,Drug Resistance, Bacterial ,Bacteriophages ,education ,Lysogeny ,030304 developmental biology ,0303 health sciences ,education.field_of_study ,Evolutionary Biology ,Evolutionary Theory ,Escherichia Coli ,Multidisciplinary ,Bacterial Evolution ,030306 microbiology ,Computational Biology ,Bacteriology ,biochemical phenomena, metabolism, and nutrition ,Virology ,Bacteriophage lambda ,humanities ,Bacterial Pathogens ,Host-Pathogen Interaction ,Viral replication ,Microbial Evolution ,Streptomycin ,Prokaryotic Models ,bacteria ,Medicine ,Bacterial virus ,Research Article - Abstract
It has been argued that bacterial cells may use their temperate viruses as biological weapons. For instance, a few bacterial cells among a population of lysogenic cells could release the virus and kill susceptible non-lysogenic competitors, while their clone mates would be immune. Because viruses replicate inside their victims upon infection, this process would amplify their number in the arena. Sometimes, however, temperate viruses spare recipient cells from death by establishing themselves in a dormant state inside cells. This phenomenon is called lysogenization and, for some viruses such as the λ virus, the probability of lysogenization increases with the multiplicity of infection. Therefore, the amplification of viruses leads to conflicting predictions about the efficacy of temperate viruses as biological weapons: amplification can increase the relative advantage of clone mates of lysogens but also the likelihood of saving susceptible cells from death, because the probability of lysogenization is higher. To test the usefulness of viruses as biological weapons, we performed competition experiments between lysogenic Escherichia coli cells carrying the λ virus and susceptible λ-free E. coli cells, either in a structured or unstructured habitat. In structured and sometimes in unstructured habitats, the λ virus qualitatively behaved as a “replicating toxin”. However, such toxic effect of λ viruses ceased after a few days of competition. This was due to the fact that many of initially susceptible cells became lysogenic. Massive lysogenization of susceptible cells occurred precisely under the conditions where the amplification of the virus was substantial. From then on, these cells and their descendants became immune to the λ virus. In conclusion, if at short term bacterial cells may use temperate viruses as biological weapons, after a few days only the classical view of temperate bacterial viruses as parasitic agents prevails.
- Published
- 2013
27. Chimaeric load among sympatric social bacteria increases with genotype richness
- Author
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I-Chen Kimberly Chen, Gregory J. Velicer, Kara Fitzpatrick, and Helena Mendes-Soares
- Subjects
Genetics ,Sympatry ,Myxococcus xanthus ,Genotype ,General Immunology and Microbiology ,biology ,Swarming (honey bee) ,General Medicine ,biology.organism_classification ,Biological Evolution ,General Biochemistry, Genetics and Molecular Biology ,Social relation ,Social group ,Sympatric speciation ,Microbial Interactions ,Species richness ,General Agricultural and Biological Sciences ,Research Articles ,General Environmental Science - Abstract
The total productivity of social groups can be determined by interactions among their constituents. Chimaeric load—the reduction of group productivity caused by antagonistic within-group heterogeneity—may be common in heterogeneous microbial groups due to dysfunctional behavioural interactions between distinct individuals. However, some instances of chimaerism in social microbes can increase group productivity, thus making a general relationship between chimaerism and group-level performance non-obvious. Using genetically similar strains of the soil bacterium Myxococcus xanthus that were isolated from a single centimetre-scale patch of soil, we tested for a relationship between degree of chimaerism (genotype richness) and total group performance at social behaviours displayed by this species. Within-group genotype richness was found to correlate negatively with total group performance at most traits examined, including swarming in both predatory and prey-free environments and spore production during development. These results suggest that interactions between such neighbouring strains in the wild will tend to be mutually antagonistic. Negative correlations between group performance and average genetic distance among group constituents at three known social genes were not found, suggesting that divergence at other loci that govern social interaction phenotypes is responsible for the observed chimaeric load. The potential for chimaeric load to result from co-aggregation among even closely related neighbours may promote the maintenance and strengthening of kin discrimination mechanisms, such as colony-merger incompatibilities observed in M. xanthus . The findings reported here may thus have implications for understanding the evolution and maintenance of diversity in structured populations of soil microbes.
- Published
- 2014
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