Your search keyword '"Blackburn, Dana"' showing total 23 results

1. Metabolic model predictions enable targeted microbiome manipulation through precision prebiotics

Author

Marinos, Georgios, primary, Hamerich, Inga K., additional, Debray, Reena, additional, Obeng, Nancy, additional, Petersen, Carola, additional, Taubenheim, Jan, additional, Zimmermann, Johannes, additional, Blackburn, Dana, additional, Samuel, Buck S., additional, Dierking, Katja, additional, Franke, Andre, additional, Laudes, Matthias, additional, Waschina, Silvio, additional, Schulenburg, Hinrich, additional, and Kaleta, Christoph, additional

Published

2024

2. Biological control and nutrition: Food for thought

Author

Blackburn, Dana, Shapiro-Ilan, David I., and Adams, Byron J.

Published

2016

3. Environmental drivers of trait changes in Photorhabdus luminescens

Author

Blackburn, Dana, Crawford, Burke, Shapiro-Ilan, David I., and Adams, Byron J.

Published

2016

4. Metabolic model predictions enable targeted microbiome manipulation through precision prebiotics

Author

Marinos, Georgios, primary, Hamerich, Inga K., additional, Debray, Reena, additional, Obeng, Nancy, additional, Petersen, Carola, additional, Taubenheim, Jan, additional, Zimmermann, Johannes, additional, Blackburn, Dana, additional, Samuel, Buck S., additional, Dierking, Katja, additional, Franke, Andre, additional, Laudes, Matthias, additional, Waschina, Silvio, additional, Schulenburg, Hinrich, additional, and Kaleta, Christoph, additional

Published

2023

5. Characterization of biocontrol traits in the entomopathogenic nematode Heterorhabditis georgiana (Kesha strain), and phylogenetic analysis of the nematode’s symbiotic bacteria

Author

Shapiro-Ilan, David I., Mbata, George N., Nguyen, Khuong B., Peat, Scott M., Blackburn, Dana, and Adams, Byron J.

Published

2009

6. Population scale nucleic acid delivery to Caenorhabditis elegans via electroporation

Author

Khodakova, Anastasia S, primary, Vilchis, Daniela Vidal, additional, Blackburn, Dana, additional, Amanor, Ferdinand, additional, and Samuel, Buck S, additional

Published

2021

7. Role of the Photorhabdus Dam methyltransferase during interactions with its invertebrate hosts

Author

Payelleville, Amaury, Blackburn, Dana, Lanois, Anne, Pages, Sylvie, C Cambon, Marine, Ginibre, Nadège, Clarke, David J., Givaudan, Alain, Brillard, Julien, Diversité, Génomes & Interactions Microorganismes - Insectes [Montpellier] (DGIMI), Institut National de la Recherche Agronomique (INRA)-Université Montpellier 2 - Sciences et Techniques (UM2)-Université de Montpellier (UM), Department of Microbiology, University of Washington [Seattle], Evolution et Diversité Biologique (EDB), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, GAIA doctoral school (584), INRA Plant Health and Environment (SPE) division (SPE-IB17-DiscriMet), Académie d'Agriculture de France, French ministry MEAE, French ministry MESRI, ANR-17-CE20-0005,EPI-PATH,Rôle des modifications épigénétiques chez un pathogène de plante au cours de l'adaptation à l'hôte et des changements d'hôte(2017), Université de Montpellier (UM)-Université Montpellier 2 - Sciences et Techniques (UM2)-Institut National de la Recherche Agronomique (INRA), and Université de Toulouse (UT)-Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Site-Specific DNA-Methyltransferase (Adenine-Specific), Life Cycles, Insecta, Nematoda, Molecular biology, Psychologie appliquée, Pathogenesis, Pathology and Laboratory Medicine, Photorhabdus luminescens, Biochemistry, bacterial dna, Dam DNA, Larvae, Medicine and Health Sciences, Nematode Infections, bactérie entomopathogène, nématode, DNA methylation, Eukaryota, Sciences bio-médicales et agricoles, Chromatin, symbiosis, Bacterial Pathogens, facteur de pathogénicité, Nucleic acids, Insects, Medical Microbiology, Medicine, Epigenetics, Pathogens, Photorhabdus, DNA modification, symbiose, Biologie, Chromatin modification, Research Article, Chromosome biology, Cell biology, Arthropoda, Science, entomopathogenic bacteria, Nematode infections, DNA construction, Plasmid construction, Microbiology, Bacterial Proteins, Genetics, Parasitic Diseases, Animals, heterorhabditis, Symbiosis, Microbial Pathogens, photorhabdus luminescens, Organisms, Biology and Life Sciences, DNA, Bacterial DNA, Invertebrates, Research and analysis methods, Species Interactions, Molecular biology techniques, Plasmid Construction, adn bactérien, Bacterial pathogens, Gene expression, Dam methyltransferase, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Developmental Biology

Abstract

Photorhabdus luminescens is an entomopathogenic bacterium found in symbiosis with the nematode Heterorhabditis. Dam DNA methylation is involved in the pathogenicity of many bacteria, including P. luminescens, whereas studies about the role of bacterial DNA methylation during symbiosis are scarce. The aim of this study was to determine the role of Dam DNA methylation in P. luminescens during the whole bacterial life cycle including during symbiosis with H. bacteriophora. We constructed a strain overexpressing dam by inserting an additional copy of the dam gene under the control of a constitutive promoter in the chromosome of P. luminescens and then achieved association between this recombinant strain and nematodes. The dam overexpressing strain was able to feed the nematode in vitro and in vivo similarly as a control strain, and to re-associate with Infective Juvenile (IJ) stages in the insect. No difference in the amount of emerging IJs from the cadaver was observed between the two strains. Compared to the nematode in symbiosis with the control strain, a significant increase in LT50 was observed during insect infestation with the nematode associated with the dam overexpressing strain. These results suggest that during the life cycle of P. luminescens, Dam is not involved the bacterial symbiosis with the nematode H. bacteriophora, but it contributes to the pathogenicity of the nemato-bacterial complex., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2019

8. Whole Genome DNA Methylation (Methylome) Analysis and Role of Dam DNA Methyltransferase in the life‐cycle of an Entomopathogenic Bacterium

Author

Payelleville, Amaury, Legrand, Ludovic, Lanois-NOURI, Anne, Pages, Sylvie, Ogier, Jean-Claude, Blackburn, Dana, Clarke, David J, Givaudan, Alain, Brillard, Julien, Diversité, Génomes & Interactions Microorganismes - Insectes [Montpellier] (DGIMI), Institut National de la Recherche Agronomique (INRA)-Université Montpellier 2 - Sciences et Techniques (UM2)-Université de Montpellier (UM), Laboratoire des interactions plantes micro-organismes (LIPM), Institut National de la Recherche Agronomique (INRA)-Centre National de la Recherche Scientifique (CNRS), Department of Microbiology, University of Washington [Seattle], and Centre National de la Recherche Scientifique (CNRS)-Institut National de la Recherche Agronomique (INRA)

Subjects

Biodiversity and Ecology, Biodiversité et Ecologie, [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

Background: DNA methylation is an epigenetic mechanism involved in the pathogenicity of severalmajor bacterial pathogens. It can decrease the affinity of some transcriptional regulators to theirbinding site, leading to sub‐populations expressing or not various genes, depending on the DNAmethylation state. Dam DNA methyltransferase is widespread in Gammaproteobacteria andmethylates the adenine of GATC sites.Objectives: The role of Dam was investigated in Photorhabdus luminescens during its symbiosis witha soil nematode and during its pathogenic stage in insects.Methods: SMRT sequencing (PacBio), which allows identification of the DNA methylation of thewhole genome (methylome), RNAseq and phenotypic analysis were performed in a P. luminescensstrain overexpressing Dam.Results: Dam overexpression caused a decrease in motility whereas it increased biofilm formation.While symbiosis ability of the Dam overexpressing strain was not significantly different from that of acontrol strain, the nemato‐bacterial complex displayed an impaired pathogenicity in insect, as alsoobserved after direct insect injection of the bacteria alone. Transcriptomic analysis revealed that theobserved phenotypes were related to differences at the transcriptional level. More than 99% of theGATC sites of the genome were found methylated and DNA methylation levels did not change overgrowth kinetics. However, the Dam‐overexpressing strain displayed more methylated GATC sitesthan the control and most of these sites were located in promoter regions. These sites may beinvolved in the observed differences in phenotypes and gene expression and provide

Published

2019

9. Whole genome DNA methylation (Methylome), transcriptomic and phenotypic analysis revealed involvement of Dam DNA methyltransferase in gene regulation in Photorhabdus luminescens

Author

Payelleville, Amaury, Legrand, Ludovic, Lanois-NOURI, Anne, Pages, Sylvie, Blackburn, Dana, Clarke, David J., Givaudan, Alain, Brillard, Julien, Diversité, Génomes & Interactions Microorganismes - Insectes [Montpellier] (DGIMI), Institut National de la Recherche Agronomique (INRA)-Université Montpellier 2 - Sciences et Techniques (UM2)-Université de Montpellier (UM), Laboratoire des interactions plantes micro-organismes (LIPM), Centre National de la Recherche Scientifique (CNRS)-Institut National de la Recherche Agronomique (INRA), Department of Microbiology, University of Washington [Seattle], Université de Montpellier (UM)-Université Montpellier 2 - Sciences et Techniques (UM2)-Institut National de la Recherche Agronomique (INRA), and Institut National de la Recherche Agronomique (INRA)-Centre National de la Recherche Scientifique (CNRS)

Subjects

DNA Methylation, gene regulation, pathogeny, Dam, phenotypic heterogeneity, analyse phénotypique, Biodiversité et Ecologie, entomopathogenic bacteria, génome, Biodiversity and Ecology, photorhabdus, épigénétique, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, méthylation, transcription, genome, bactérie entomopathogène

Abstract

Dam DNA methylation is an epigenetic mechanism as it can regulate genes expression by reducing the affinity of transcriptional regulators for their binding site (Casadesus and Low, 2006). This DamDNA methylation has been shown to be involved in pathogenicity and phenotypic heterogeneity of several bacteria (Casadesus and Low, 2013).Photorhabdus luminescens is an entomopathogenic bacteria switching from symbiosis, with a nematode, to pathogenicity, in the insect (Boemare et al., 1993). This bacterium displays phenotypic heterogeneity. Because a Dam MTase has been identified in its genome sequence, we investigated its role in the life-cycle of P. luminescens. Methylome analysis revealed that 99% of GATC sites in the genome are methylated in all tested growth conditions. Overexpressing Dam methylates most of the unmethylated sites and causes a decrease in motility and pathogenicity of the bacteria whereas it increases biofilms formation. It does not impair the bacterial ability to perform a mutualistic association with the nematode. Transcriptomic analysis revealed that the observed phenotypes are related to differences at the transcriptional level.Coupling phenotypic, transcriptomic and methylomic analysis provides clues to identify genes transcriptionally regulated by DNA methylation and to understand Dam DNA methylation involvement in P. luminescens life-cycle.

Published

2019

10. Whole Genome DNA Methylation (Methylome) Analysis and Role of Dam DNA Methyltransferase in the Entomopathogenic Bacterium Photorhabdus luminescens

Author

Payelleville, Amaury, Lanois-NOURI, Anne, Legrand, Ludovic, Pages, Sylvie, Blackburn, Dana, Clarke, David J, Givaudan, Alain, Brillard, Julien, Diversité, Génomes & Interactions Microorganismes - Insectes [Montpellier] (DGIMI), Université de Montpellier (UM)-Université Montpellier 2 - Sciences et Techniques (UM2)-Institut National de la Recherche Agronomique (INRA), Laboratoire des interactions plantes micro-organismes (LIPM), Institut National de la Recherche Agronomique (INRA)-Centre National de la Recherche Scientifique (CNRS), Department of Microbiology, University of Washington [Seattle], Institut National de la Recherche Agronomique (INRA)-Université Montpellier 2 - Sciences et Techniques (UM2)-Université de Montpellier (UM), and Centre National de la Recherche Scientifique (CNRS)-Institut National de la Recherche Agronomique (INRA)

Subjects

animal structures, DNA methylation, epigenetics, gene regulation, méthylation de l'ADN, méthyltransférase, entomopathogenic bacteria, [SDV]Life Sciences [q-bio], bactérie entomopathogène, photorhabdus luminescens

Abstract

Whole Genome DNA Methylation (Methylome) Analysis and Role of Dam DNA Methyltransferase in the Entomopathogenic Bacterium Photorhabdus luminescens. MicrobiOccitanie 2019- Rencontre des Microbiologistes Région Occitanie

Published

2019

11. Photorhabdus Dam methyltransferase overexpression impairs virulence of the nemato-bacterial complex in insects

Author

Payelleville, Amaury, Blackburn, Dana, Lanois, Anne, Pages, Sylvie, Cambon, Marine C., Ginibre , Nadège, Clarke, David J., Givaudan, Alain, and Brillard, Julien

Subjects

Biodiversity and Ecology, Biodiversité et Ecologie, entérobactérie, lutte biologique, dam, nematobacterial complex, symbiosis, pathogenicity, bactérie pathogène, nématode, photorhabdus luminescens

Abstract

Photorhabdus luminescens is an entomopathogenic bacterium found in symbiosis with the nematode Heterorhabditis. Dam DNA methylation is involved in the pathogenicity of many bacteria, including P. luminescens, whereas studies about the role of bacterial DNA methylation during symbiosis are scarce. The aim of this study was to determine the role of Dam DNA methylation in P. luminescens symbiosis with H. bacteriophora. We constructed a strain overexpressing dam by inserting an additional copy of the dam gene under the control of a constitutive promoter in the chromosome of P. luminescens and then achieved association between this recombinant strain and nematodes. The dam overexpressing strain was able to feed the nematode in vitro and in vivo similarly as a control strain, and to re-associate with Infective Juvenile (IJ) stages in the insect. No difference in the amount of emerging IJs from the cadaver was observed between the two strains. Compared to the nematode in symbiosis with the control strain, a significant increase in LT50 was observed during insect infestation with the nematode associated with the dam overexpressing strain. These results suggest that the P. luminescens Dam plays a role in the pathogenicity of the nemato-bacterial complex.

Published

2019

12. PhotorhabdusDam methyltransferase overexpression impairs virulence of the nemato-bacterial complex in insects

Author

Payelleville, Amaury, primary, Blackburn, Dana, additional, Lanois, Anne, additional, Pagès, Sylvie, additional, Cambon, Marine, additional, Ginibre, Nadège, additional, Clarke, David, additional, Givaudan, Alain, additional, and Brillard, Julien, additional

Published

2019

13. Evolution of virulence in Photorhabdus spp., entomopathogenic nematode symbionts

Author

Blackburn, Dana, primary, Wood, Perry L., additional, Burk, Travis J., additional, Crawford, Burke, additional, Wright, Sarah M., additional, and Adams, Byron J., additional

Published

2016

14. Virulence modulation in Photorhabdus spp.

Author

Blackburn, Dana, primary, Burk, Travis J., additional, and Adams, Byron J., additional

Published

2016

15. Multi-functional analysis ofKlebsiella pneumoniaefimbrial types in adherence and biofilm formation

Author

Alcántar-Curiel, María D., primary, Blackburn, Dana, additional, Saldaña, Zeus, additional, Gayosso-Vázquez, Catalina, additional, Iovine, Nicole, additional, De la Cruz, Miguel A., additional, and Girón, Jorge A., additional

Published

2013

16. Distribution of the Escherichia coli Common Pilus among Diverse Strains of Human Enterotoxigenic E. coli

Author

Blackburn, Dana, primary, Husband, Amanda, additional, Saldaña, Zeus, additional, Nada, Rania A., additional, Klena, John, additional, Qadri, Firdausi, additional, and Girón, Jorge A., additional

Published

2009

17. Multi-functional analysis of Klebsiella pneumoniae fmbrial types in adherence and bioflm formation.

Author

Alcántar-Curiel, María D., Blackburn, Dana, Saldaña, Zeus, Gayosso-Vázquez, Catalina, Iovine, Nicole, De la Cruz, Miguel A., and Girón, Jorge A.

Subjects

*KLEBSIELLA pneumoniae, *NOSOCOMIAL infections, *BIOFILMS, *EPITHELIAL cells, *MICROBIAL ecology

Abstract

Klebsiella pneumoniae is an opportunistic pathogen frequently associated with nosocomially acquired infections. host cell adherence and biofilm formation of K. pneumoniae isolates is mediated by type 1 (T1p) and type 3 (MR/K) pili whose major fimbrial subunits are encoded by the fimA and mrkA genes, respectively. The E. coli common pilus (ECP) is an adhesive structure produced by all E. coli pathogroups and a homolog of the ecpABCDE operon is present in the K. pneumoniae genome. In this study, we aimed to determine the prevalence of these three fimbrial genes among a collection of 69 clinical and environmental K. pneumoniae strains and to establish a correlation with fmbrial production during cell adherence and bioflm formation. The PCR-based survey demonstrated that 96% of the K. pneumoniae strains contained ecpA and 94% of these strains produced ECP during adhesion to cultured epithelial cells. eighty percent of the strains forming biofilms on glass produced ECP, suggesting that ECP is required, at least in vitro, for expression of these phenotypes. The fim operon was found in 100% of the strains and T1p was detected in 96% of these strains. While all the strains examined contained mrkA, only 57% of them produced MR/K fmbriae, alone or together with ECP. In summary, this study highlights the ability of K. pneumoniae strains to produce ECP, which may represent a new important adhesive structure of this organism. Further, it defines the multi-fimbrial nature of the interaction of this nosocomial pathogen with host epithelial cells and inert surfaces. [ABSTRACT FROM AUTHOR]

Published

2013

18. Multi-functional analysis of Klebsiella pneumoniaefimbrial types in adherence and biofilm formation

Author

Alcántar-Curiel, María D., Blackburn, Dana, Saldaña, Zeus, Gayosso-Vázquez, Catalina, Iovine, Nicole, De la Cruz, Miguel A., and Girón, Jorge A.

Abstract

Klebsiella pneumoniaeis an opportunistic pathogen frequently associated with nosocomially acquired infections. Host cell adherence and biofilm formation of K. pneumoniaeisolates is mediated by type 1 (T1P) and type 3 (MR/K) pili whose major fimbrial subunits are encoded by the fimAand mrkAgenes, respectively. The E. colicommon pilus (ECP) is an adhesive structure produced by all E. colipathogroups and a homolog of the ecpABCDEoperon is present in the K. pneumoniaegenome. In this study, we aimed to determine the prevalence of these three fimbrial genes among a collection of 69 clinical and environmental K. pneumoniaestrains and to establish a correlation with fimbrial production during cell adherence and biofilm formation. The PCR-based survey demonstrated that 96% of the K. pneumoniaestrains contained ecpAand 94% of these strains produced ECP during adhesion to cultured epithelial cells. Eighty percent of the strains forming biofilms on glass produced ECP, suggesting that ECP is required, at least in vitro, for expression of these phenotypes. The fimoperon was found in 100% of the strains and T1P was detected in 96% of these strains. While all the strains examined contained mrkA, only 57% of them produced MR/K fimbriae, alone or together with ECP. In summary, this study highlights the ability of K. pneumoniaestrains to produce ECP, which may represent a new important adhesive structure of this organism. Further, it defines the multi-fimbrial nature of the interaction of this nosocomial pathogen with host epithelial cells and inert surfaces.

Published

2013

19. Distribution of the Escherichia coliCommon Pilus among Diverse Strains of Human Enterotoxigenic E. coli

Author

Blackburn, Dana, Husband, Amanda, a, Nada, Rania A., Klena, John, Qadri, Firdausi, and Giro´n, Jorge A.

Abstract

ABSTRACTThe Escherichia colicommon pilus (ECP) is produced by commensal and pathogenic E. colistrains. This pilus is unrelated to any of the known colonization factors (CFs) of enterotoxigenic E. coli(ETEC). In this study, we investigated the distribution and production of ECP among a collection of 136 human CF-positive and CF-negative ETEC strains of different geographic origins. The major pilus subunit gene, ecpA, was found in 109 (80%) of these strains, suggesting that it is widely distributed among ETEC strains. Phenotypic analysis of a subset of 43 strains chosen randomly showed that 58% of them produced ECP independently of the presence or absence of CFs, a percentage even higher than that of the most prevalent CFs. These data suggest an important role for ECP in the biology of ETEC, particularly in CF-negative strains, and in human infection.

Published

2009

20. Comparative Genomic Analysis of Campylobacter rectus and Closely Related Species.

Author

Hughes Lago C, Blackburn D, Kinder Pavlicek M, and Threadgill DS

Abstract

Campylobacter rectus is a gram-negative, anaerobic bacterium strongly associated with periodontitis. It also causes various extraoral infections and is linked to adverse pregnancy outcomes in humans and murine models. C. rectus and related oral Campylobacters have been termed "emerging Campylobacter species" because infections by these organisms are likely underreported. Previously, no comparative methods have been used to analyze more than single C. rectus strains and until recently, very few C. rectus genomes have been publicly available. More sequenced genomes and comparative analyses are needed to study the genomic features and pathogenicity of this species. We sequenced eight new C. rectus strains and used comparative methods to identify regions of interest. An emphasis was put on the type III flagellar secretion system (T3SS), type IV secretion system (T4SS), and type VI secretion system (T6SS) because these protein complexes are important for pathogenesis in other Campylobacter species. RAST, BV-BRC, and other bioinformatics tools were used to assemble, annotate, and compare these regions in the genomes. The pan-genome of C. rectus consists of 2670 genes with core and accessory genomes of 1429 and 1241 genes, respectively. All isolates analyzed in this study have T3SS and T6SS hallmark proteins, while five of the isolates are missing a T4SS system. Twenty-one prophage clusters were identified across the panel of isolates, including four that appear intact. Overall, significant genomic islands were found, suggesting regions in the genomes that underwent horizontal gene transfer. Additionally, the high frequency of CRISPR arrays and other repetitive elements has led to genome rearrangements across the strains, including in areas adjacent to secretion system gene clusters. This study describes the substantial diversity present among C. rectus isolates and highlights tools/assays that have been developed to permit functional genomic studies. Additionally, we have expanded the studies on C. showae T4SS since we have two new C. showae genomes to report. We also demonstrate that unlike C. rectus , C showae does not demonstrate evidence of intact T6SS except for the strain CAM. The only strain of sequenced C. massilensis has neither T4SS or T6SS.

Published

2024

21. Application of Flow Vermimetry for Quantification and Analysis of the Caenorhabditis elegans Gut Microbiome.

Author

Zhang F, Blackburn D, Hosea CN, Assié A, and Samuel BS

Subjects

Animals, Caenorhabditis elegans, Gastrointestinal Microbiome, Microbiota

Abstract

The composition of the gut microbiome can have a dramatic impact on host physiology throughout the development and the life of the animal. Measuring compositional changes in the microbiome is crucial in identifying the functional relationships between these physiological changes. Caenorhabditis elegans has emerged as a powerful host system to examine the molecular drivers of host-microbiome interactions. With its transparent body plan and fluorescent-tagged natural microbes, the relative levels of microbes within the gut microbiome of an individual C. elegans animal can be easily quantified using a large particle sorter. Here we describe the procedures for the experimental setup of a microbiome, collection, and analysis of C. elegans populations in the desired life stage, operation, and maintenance of the sorter, and statistical analyses of the resulting datasets. We also discuss considerations for optimizing sorter settings based on the microbes of interest, the development of effective gating strategies for C. elegans life stages, and how to utilize sorter capabilities to enrich animal populations based on gut microbiome composition. Examples of potential applications will be presented as part of the protocol, including the potential for scalability to high-throughput applications.

Published

2023

22. Metabolic model predictions enable targeted microbiome manipulation through precision prebiotics.

Author

Marinos G, Hamerich IK, Debray R, Obeng N, Petersen C, Taubenheim J, Zimmermann J, Blackburn D, Samuel BS, Dierking K, Franke A, Laudes M, Waschina S, Schulenburg H, and Kaleta C

Abstract

The microbiome is increasingly receiving attention as an important modulator of host health and disease. However, while numerous mechanisms through which the microbiome influences its host have been identified, there is still a lack of approaches that allow to specifically modulate the abundance of individual microbes or microbial functions of interest. Moreover, current approaches for microbiome manipulation such as fecal transfers often entail a non-specific transfer of entire microbial communities with potentially unwanted side effects. To overcome this limitation, we here propose the concept of precision prebiotics that specifically modulate the abundance of a microbiome member species of interest. In a first step, we show that defining precision prebiotics by compounds that are only taken up by the target species but no other species in a community is usually not possible due to overlapping metabolic niches. Subsequently, we present a metabolic modeling network framework that allows us to define precision prebiotics for a two-member C. elegans microbiome model community comprising the immune-protective Pseudomonas lurida MYb11 and the persistent colonizer Ochrobactrum vermis MYb71. Thus, we predicted compounds that specifically boost the abundance of the host-beneficial MYb11, four of which were experimentally validated in vitro (L-serine, L-threonine, D-mannitol, and γ-aminobutyric acid). L-serine was further assessed in vivo , leading to an increase in MYb11 abundance also in the worm host. Overall, our findings demonstrate that constraint-based metabolic modeling is an effective tool for the design of precision prebiotics as an important cornerstone for future microbiome-targeted therapies., Competing Interests: Conflicts of Interest None to declare

Published

2023

23. Characterization of Biocontrol Traits in Heterorhabditis floridensis: A Species with Broad Temperature Tolerance.

Author

Shapiro-Ilan DI, Blackburn D, Duncan L, El-Borai FE, Koppenhöfer H, Tailliez P, and Adams BJ

Abstract

Biological characteristics of two strains of the entomopathogenic nematode, Heterorhabditis floridensis (332 isolated in Florida and K22 isolated in Georgia) were described. The identity of the nematode's symbiotic bacteria was elucidated and found to be Photorhabdus luminescens subsp. luminescens. Beneficial traits pertinent to biocontrol (environmental tolerance and virulence) were characterized. The range of temperature tolerance in the H. floridensis strains was broad and showed a high level of heat tolerance. The H. floridensis strains caused higher mortality or infection in G. mellonella at 30°C and 35°C compared with S. riobrave (355), a strain widely known to be heat tolerant, and the H. floridensis strains were also capable of infecting at 17°C whereas S. riobrave (355) was not. However, at higher temperatures (37°C and 39°C), though H. floridensis readily infected G. mellonella, S. riobrave strains caused higher levels of mortality. Desiccation tolerance in H. floridensis was similar to Heterorhabditis indica (Hom1) and S. riobrave (355) and superior to S. feltiae (SN). H. bacteriophora (Oswego) and S. carpocapsae (All) exhibited higher desiccation tolerance than the H. floridensis strains. The virulence of H. floridensis to four insect pests (Aethina tumida, Conotrachelus nenuphar, Diaprepes abbreviatus, and Tenebrio molitor) was determined relative to seven other nematodes: H. bacteriophora (Oswego), H. indica (Hom1), S. carpocapsae (All), S. feltiae (SN), S. glaseri (4-8 and Vs strains), and S. riobrave (355). Virulence to A. tumida was similar among the H. floridensis strains and other nematodes except S. glaseri (Vs), S. feltiae, and S. riobrave failed to cause higher mortality than the control. Only H. bacteriophora, H. indica, S. feltiae, S. riobrave, and S. glaseri (4-8) caused higher mortality than the control in C. nenuphar. All nematodes were pathogenic to D. abbreviatus though S. glaseri (4-8) and S. riobrave (355) were the most virulent. S. carpocapsae was the most virulent to T. molitor. In summary, the H. floridensis strains possess a wide niche breadth in temperature tolerance and have virulence and desiccation levels that are similar to a number of other entomopathogenic nematodes. The strains may be useful for biocontrol purposes in environments where temperature extremes occur within short durations.

Published

2014