Your search keyword '"Agamennone, Valeria"' showing total 18 results

1. Dose-dependent impact of oxytetracycline on the veal calf microbiome and resistome

Author

Keijser, Bart J. F., Agamennone, Valeria, van den Broek, Tim J., Caspers, Martien, van de Braak, Adri, Bomers, Richard, Havekes, Mieke, Schoen, Eric, van Baak, Martin, Mioch, Daniël, Bomers, Lonneke, and Montijn, Roy C.

Published

2019

2. Antimicrobial activity and carbohydrate metabolism in the bacterial metagenome of the soil-living invertebrate Folsomia candida

Author

Agamennone, Valeria, Le, Ngoc Giang, van Straalen, Nico M., Brouwer, Abraham, and Roelofs, Dick

Published

2019

3. A practical guide for probiotics applied to the case of antibiotic-associated diarrhea in The Netherlands

Author

Agamennone, Valeria, Krul, Cyrille A. M., Rijkers, Ger, and Kort, Remco

Published

2018

4. The entero-endocrine response following a mixed-meal tolerance test with a non-nutritive pre-load in participants with pre-diabetes and type 2 diabetes: A crossover randomized controlled trial proof of concept study.

Author

Muilwijk, Mirthe, Beulens, Joline W. J., Groeneveld, Lenka, Rutters, Femke, Blom, Marieke T., Agamennone, Valeria, van den Broek, Tim, Keijser, Bart J. F., and Hoevenaars, Femke

Subjects

TYPE 2 diabetes, SWEETENERS, PREDIABETIC state, GUT microbiome, PROOF of concept, NONNUTRITIVE sweeteners, INSULIN

Abstract

Introduction: This crossover randomized controlled trial (RCT) investigated differences in short-term entero-endocrine response to a mixed-meal tolerance test preceded by nutrient sensing between participants with pre-diabetes (pre-T2D) and type 2 diabetes (T2D). Additionally, differences in gut and oral microbiome composition between participants with a high and low entero-endocrine response were investigated. Research design and methods: Ten participants with pre-T2D and ten with T2D underwent three test days with pre-loads consisting of either swallowing water (control), or rinsing with a non-nutritive sweetener solution, or swallowing the sweetener solution before a mixed-meal tolerance test. Blood glucose-dependent insulinotropic polypeptide (GIP), glucagon-like peptide-1 (GLP-1), glucagon, glucose, insulin and peptide YY (PYY) were determined at t = -20, 0, 15, 30, 60, 120 and 240 minutes. The composition of the oral and gut microbiome at baseline were also determined. Results: The entero-endocrine response differed by pre-loads, e.g. a lower PYY response after swallowing the non-nutritive sweetener (-3585.2pg/mL [95% CI: -6440.6; -729.8]; p = 0.01). But it also differed by T2D status, e.g. a higher glucose, glucagon and PYY response was found in participants with T2D, compared to those with pre-T2D. Evidence for associations between the oral and gut microbiome composition and the entero-endocrine response was limited. Still, the level of entero-endocrine response was associated with several oral microbiome measures. Higher oral anterior α-diversity was associated with a lower PYY response (e.g. Inverse Simpson index -1357pg/mL [95% CI -2378; -336; 1.24]), and higher oral posterior α-diversitywith a higher GIP response (e.g. Inverse Simpson index 6773pg/mL [95% CI 132; 13414]) in models adjusted for sex, age and T2D status. Conclusions: Non-nutritive pre-loads influence the entero-endocrine response to a mixed-meal, and this effect varies based on (pre-)T2D status. The entero-endocrine response is likely not associated with the gut microbiome, and there is limited evidence for association with the α-diversity of the oral microbiome composition. Trial registration: Trial register: Netherlands Trial Register NTR7212, accessible through International Clinical Trials Registry Platform: ICTRP Search Portal (who.int). [ABSTRACT FROM AUTHOR]

Published

2023

5. Individual and Group-Based Effects of In Vitro Fiber Interventions on the Fecal Microbiota.

Author

Agamennone, Valeria, van den Broek, Tim J., de Kat Angelino-Bart, Alie, Hoevenaars, Femke P. M., van der Kamp, Jan Willem, and Schuren, Frank H. J.

Subjects

SHORT-chain fatty acids, INFLAMMATORY bowel diseases, GUT microbiome, DIETARY fiber, FIBERS

Abstract

The development of microbiome-targeted strategies is limited by individual differences in gut microbiome composition and metabolic responses to interventions. In vitro models that can replicate this variation allow us to conduct pre-clinical studies and assess efficacy. This study describes the exposure of 16 individual fecal microbiota samples to 5 different fibers using an in vitro system for the anaerobic cultivation of bacteria. The individual microbiota differed in composition and metabolite profiles (short-chain fatty acids and branched-chain fatty acids) after incubation with the fibers. Furthermore, microbiota composition after fiber incubation was significantly different between subjects with good intestinal health and subjects with Inflammatory Bowel Disease (IBD). α-diversity was differently affected by dietary fibers; for example, exposure to psyllium resulted in increased diversity in the healthy group and in decreased diversity in the IBD group. Instead, the functional metabolic profile did not differ between the two groups. Finally, the combination of all fibers, tested on the microbiota from IBD subjects, resulted in stronger overall effects on both microbiota composition and metabolite production compared to the single fibers. These results confirm that incubation with dietary fiber results in different compositional and functional effects on individual microbiota and that in vitro models represent successful tools for studying individual fiber effects. [ABSTRACT FROM AUTHOR]

Published

2023

6. Diversity and abundance of soil arthropods in urban and suburban holm oak stands

Author

Rota, Emilia, Caruso, Tancredi, Migliorini, Massimo, Monaci, Fabrizio, Agamennone, Valeria, Biagini, Giovanni, and Bargagli, Roberto

Published

2015

7. The microbiome of Folsomia candida: an assessment of bacterial diversity in a Wolbachia-containing animal

Author

Agamennone, Valeria, Jakupović, Dennis, Weedon, James T., Suring, Wouter J., van Straalen, Nico M., Roelofs, Dick, and Röling, Wilfred F. M.

Published

2015

8. The Core Human Microbiome: Does It Exist and How Can We Find It? A Critical Review of the Concept.

Author

Sharon, Itai, Quijada, Narciso Martín, Pasolli, Edoardo, Fabbrini, Marco, Vitali, Francesco, Agamennone, Valeria, Dötsch, Andreas, Selberherr, Evelyne, Grau, José Horacio, Meixner, Martin, Liere, Karsten, Ercolini, Danilo, de Filippo, Carlotta, Caderni, Giovanna, Brigidi, Patrizia, and Turroni, Silvia

Abstract

The core microbiome, which refers to a set of consistent microbial features across populations, is of major interest in microbiome research and has been addressed by numerous studies. Understanding the core microbiome can help identify elements that lead to dysbiosis, and lead to treatments for microbiome-related health states. However, defining the core microbiome is a complex task at several levels. In this review, we consider the current state of core human microbiome research. We consider the knowledge that has been gained, the factors limiting our ability to achieve a reliable description of the core human microbiome, and the fields most likely to improve that ability. DNA sequencing technologies and the methods for analyzing metagenomics and amplicon data will most likely facilitate higher accuracy and resolution in describing the microbiome. However, more effort should be invested in characterizing the microbiome's interactions with its human host, including the immune system and nutrition. Other components of this holobiontic system should also be emphasized, such as fungi, protists, lower eukaryotes, viruses, and phages. Most importantly, a collaborative effort of experts in microbiology, nutrition, immunology, medicine, systems biology, bioinformatics, and machine learning is probably required to identify the traits of the core human microbiome. [ABSTRACT FROM AUTHOR]

Published

2022

9. Battling Enteropathogenic Clostridia: Phage Therapy for Clostridioides difficile and Clostridium perfringens.

Author

Venhorst, Jennifer, van der Vossen, Jos M. B. M., and Agamennone, Valeria

Subjects

CLOSTRIDIOIDES difficile, CLOSTRIDIUM perfringens, CLOSTRIDIUM diseases, BACTERIOPHAGES, CLOSTRIDIA, CROSS infection

Abstract

The pathogenic Clostridioides difficile and Clostridium perfringens are responsible for many health care-associated infections as well as systemic and enteric diseases. Therefore, they represent a major health threat to both humans and animals. Concerns regarding increasing antibiotic resistance (related to C. difficile and C. perfringens) have caused a surge in the pursual of novel strategies that effectively combat pathogenic infections, including those caused by both pathogenic species. The ban on antibiotic growth promoters in the poultry industry has added to the urgency of finding novel antimicrobial therapeutics for C. perfringens. These efforts have resulted in various therapeutics, of which bacteriophages (in short, phages) show much promise, as evidenced by the Eliava Phage Therapy Center in Tbilisi, Georgia (https://eptc.ge/). Bacteriophages are a type of virus that infect bacteria. In this review, the (clinical) impact of clostridium infections in intestinal diseases is recapitulated, followed by an analysis of the current knowledge and applicability of bacteriophages and phage-derived endolysins in this disease indication. Limitations of phage and phage endolysin therapy were identified and require considerations. These include phage stability in the gastrointestinal tract, influence on gut microbiota structure/function, phage resistance development, limited host range for specific pathogenic strains, phage involvement in horizontal gene transfer, and—for phage endolysins—endolysin resistance, -safety, and -immunogenicity. Methods to optimize features of these therapeutic modalities, such as mutagenesis and fusion proteins, are also addressed. The future success of phage and endolysin therapies require reliable clinical trial data for phage(-derived) products. Meanwhile, additional research efforts are essential to expand the potential of exploiting phages and their endolysins for mitigating the severe diseases caused by C. difficile and C. perfringens. [ABSTRACT FROM AUTHOR]

Published

2022

10. HDHL-INTIMIC: A European Knowledge Platform on Food, Diet, Intestinal Microbiomics, and Human Health.

Author

Agamennone, Valeria, Abuja, Peter M., Basic, Marijana, De Angelis, Maria, Gessner, André, Keijser, Bart, Larsen, Martin, Pinart, Mariona, Nimptsch, Katharina, Pujos-Guillot, Estelle, Schlicht, Kristina, Sharon, Itai, Untersmayr, Eva, Laudes, Matthias, Pischon, Tobias, and Bouwman, Jildau

Abstract

Studies indicate that the intestinal microbiota influences general metabolic processes in humans, thereby modulating the risk of chronic diseases such as type 2 diabetes, allergy, cardiovascular disease, and colorectal cancer (CRC). Dietary factors are also directly related to chronic disease risk, and they affect the composition and function of the gut microbiota. Still, detailed knowledge on the relation between diet, the microbiota, and chronic disease risk is limited. The overarching aim of the HDHL-INTIMIC (INtesTInal MICrobiomics) knowledge platform is to foster studies on the microbiota, nutrition, and health by assembling available knowledge of the microbiota and of the other aspects (e.g., food science and metabolomics) that are relevant in the context of microbiome research. The goal is to make this information findable, accessible, interoperable, and reusable (FAIR) to the scientific community, and to share information with the various stakeholders. Through these efforts a network of transnational and multidisciplinary collaboration has emerged, which has contributed to further develop and increase the impact of microbiome research in human health. The roles of microbiota in early infancy, during ageing, and in subclinical and clinically manifested disease are identified as urgent areas of research in this knowledge platform. [ABSTRACT FROM AUTHOR]

Published

2022

11. Roux-en-Y gastric bypass surgery changes fungal and bacterial microbiota in morbidly obese patients—A pilot study.

Author

Steinert, Robert E., Rehman, Ateequr, Souto Lima, Everton Job, Agamennone, Valeria, Schuren, Frank H. J., Gero, Daniel, Schreiner, Phillip, Vonlanthen, René, Ismaeil, Aiman, Tzafos, Stefanos, Hosa, Hanna, Vetter, Diana, Misselwitz, Benjamin, and Bueter, Marco

Subjects

INFLAMMATORY bowel diseases, GASTRIC bypass, IRRITABLE colon, OBESITY, BODY weight, GLYCEMIC control, BACTERIAL communities, FUNGAL communities

Abstract

The Roux-en-Y gastric bypass (RYGB) remains the most effective treatment for morbidly obese patients to lower body weight and improve glycemic control. There is recent evidence that the mycobiome (fungal microbiome) can aggravate disease severity in a number of diseases including inflammatory bowel disease (IBD), irritable bowel syndrome (IBS) and hepatitis; moreover, a dysbiotic fungal microbiota has been reported in the obese. We characterized fungal and bacterial microbial composition in fecal samples of 16 morbidly obese patients before and three months after RYGB surgery and compared with nine healthy controls. We found that RYGB surgery induced a clear alteration in structure and composition of the gut fungal and bacterial microbiota. Beta diversity analysis revealed significant differences in bacterial microbiota between obese patients before surgery and healthy controls (P < 0.005) and a significant, unidirectional shift in RYGB patients after surgery (P < 0.001 vs. before surgery). In contrast, there was no significant difference in fungal microbiota between groups but individually specific changes after RYGB surgery. Interestingly, RYGB surgery induced a significant reduction in fungal alpha diversity namely Chao1, Sobs, and Shannon diversity index (P<0.05, respectively) which contrasts the trend for uniform changes in bacteria towards increased richness and diversity post-surgery. We did not observe any inter-kingdom relations in RYGB patients but in the healthy control cohort and there were several correlations between fungi and bacteria and clinical parameters (P<0.05, respectively) that warrant further research. Our study identifies changes in intestinal fungal communities in RYGB patients that are distinct to changes in the bacterial microbiota. [ABSTRACT FROM AUTHOR]

Published

2020

12. Genome annotation and antimicrobial properties of Bacillus toyonensis VU‐DES13, isolated from the Folsomia candida gut.

Author

Agamennone, Valeria, Straalen, Joeri, Brouwer, Abraham, Boer, Tjalf E., Hensbergen, Paul J., Zaagman, Niels, Braster, Martin, van Straalen, Nico M., Roelofs, Dick, and Janssens, Thierry K.S.

Subjects

*GENOMES, *BACILLUS (Bacteria), *PATHOGENIC microorganisms, *BACILLUS subtilis, *ESCHERICHIA coli

Abstract

Antibiotic resistance necessitates the search for new bioactive compounds with novel mechanisms of action. Natural products derived from bacteria and fungi are widely used in the field of medicine and new environments can be explored as sources of antimicrobials. Bacteria associated with springtails have shown high inhibitory activity against pathogens. Here, we characterized a bacterial strain with high potential for antimicrobial activity, isolated from the gut of the springtail Folsomia candida Willem (Collembola: Isotomidae). The strain was characterized using the 'analytical profile index' and the 'minimal inhibitory concentration' assay to test for antibiotic resistance. Agar overlay and agar disk diffusion assays were used to test the inhibitory activity of the strain and its extract against a variety of pathogens, and reporter assays were used to investigate the mode of action. High‐performance liquid chromatography was used to analyze and fractionate the extract of bacterial culture, followed by additional assays on the fractions. The genome of the strain was screened for presence of antibiotic resistance genes and secondary metabolite gene clusters. The isolate was identified as Bacillus toyonensis Jiménez et al., but it displayed differences in metabolic profile when compared to the type species. The isolate was highly resistant to penicillin and inhibited the growth of a variety of pathogenic microorganisms. Genome analysis revealed an enrichment of resistance genes for β‐lactam antibiotics compared to the type isolate. Also, secondary metabolite clusters involved in the production of siderophores, bacteriocins, and nonribosomal peptide synthetases were identified. In conclusion, a unique Bacillus strain was isolated from the gut of F. candida, for which we provide evidence of inhibitory activity against an array of pathogens. This, coupled with high resistance to penicillin as substantiated by the presence of resistance genes, points to the potential of B. toyonensis VU‐DES13 to provide a new source of antimicrobial compounds. A Bacillus commensal in the gut microbiome of the springtail Folsomia candida (Collembola: Isotomidae) was isolated and cultured. Phenotyping and phylogenetic analysis indicated high resemblance to the type strain of Bacillus toyonensis. We demonstrate high antimicrobial activity of this strain, supported by annotated gene functions in its genome, involved in the biosynthesis of antimicrobial compounds. Coupled with high resistance to penicillin, substantiated by the presence of resistance genes, this indicates Bacillus VU‐DES13 may provide a new source of antimicrobial compounds. [ABSTRACT FROM AUTHOR]

Published

2019

13. Coping with living in the soil: the genome of the parthenogenetic springtail Folsomia candida.

Author

Faddeeva-Vakhrusheva, Anna, Kraaijeveld, Ken, Derks, Martijn F. L., Yahya Anvar, Seyed, Agamennone, Valeria, Suring, Wouter, Kampfraath, Andries A., Ellers, Jacintha, Giang Le Ngoc, van Gestel, Cornelis A. M., Mariën, Janine, Smit, Sandra, van Straalen, Nico M., and Roelofs, Dick

Subjects

COLLEMBOLA, INSECTS, GENE expression, INSECT genetics, SOIL biology, INSECT behavior, INSECT adaptation, GENE clusters

Abstract

Background: Folsomia candida is a model in soil biology, belonging to the family of Isotomidae, subclass Collembola. It reproduces parthenogenetically in the presence of Wolbachia, and exhibits remarkable physiological adaptations to stress. To better understand these features and adaptations to life in the soil, we studied its genome in the context of its parthenogenetic lifestyle. Results: We applied Pacific Bioscience sequencing and assembly to generate a reference genome for F. candida of 221.7 Mbp, comprising only 162 scaffolds. The complete genome of its endosymbiont Wolbachia, was also assembled and turned out to be the largest strain identified so far. Substantial gene family expansions and lineage-specific gene clusters were linked to stress response. A large number of genes (809) were acquired by horizontal gene transfer. A substantial fraction of these genes are involved in lignocellulose degradation. Also, the presence of genes involved in antibiotic biosynthesis was confirmed. Intra-genomic rearrangements of collinear gene clusters were observed, of which 11 were organized as palindromes. The Hox gene cluster of F. candida showed major rearrangements compared to arthropod consensus cluster, resulting in a disorganized cluster. Conclusions: The expansion of stress response gene families suggests that stress defense was important to facilitate colonization of soils. The large number of HGT genes related to lignocellulose degradation could be beneficial to unlock carbohydrate sources in soil, especially those contained in decaying plant and fungal organic matter. Intra- as well as inter-scaffold duplications of gene clusters may be a consequence of its parthenogenetic lifestyle. This high quality genome will be instrumental for evolutionary biologists investigating deep phylogenetic lineages among arthropods and will provide the basis for a more mechanistic understanding in soil ecology and ecotoxicology. [ABSTRACT FROM AUTHOR]

Published

2017

14. Evolutionary ecology of beta-lactam gene clusters in animals.

Author

Suring, Wouter, Meusemann, Karen, Blanke, Alexander, Mariën, Janine, Schol, Tim, Agamennone, Valeria, Faddeeva‐Vakhrusheva, Anna, Berg, Matty P., Brouwer, Abraham, Straalen, Nico M., and Roelofs, Dick

Subjects

BETA lactamases, BIOSYNTHESIS, PENICILLIN, GENE clusters, COLLEMBOLA, GENE expression

Abstract

Beta-lactam biosynthesis was thought to occur only in fungi and bacteria, but we recently reported the presence of isopenicillin N synthase in a soil-dwelling animal, Folsomia candida. However, it has remained unclear whether this gene is part of a larger beta-lactam biosynthesis pathway and how widespread the occurrence of penicillin biosynthesis is among animals. Here, we analysed the distribution of beta-lactam biosynthesis genes throughout the animal kingdom and identified a beta-lactam gene cluster in the genome of F. candida (Collembola), consisting of isopenicillin N synthase ( IPNS), δ-(L-α-aminoadipoyl)-L-cysteinyl-D-valine synthetase ( ACVS), and two cephamycin C genes ( cmcI and cmcJ) on a genomic scaffold of 0.76 Mb. All genes are transcriptionally active and are inducible by stress (heat shock). A beta-lactam compound was detected in vivo using an ELISA beta-lactam assay. The gene cluster also contains an ABC transporter which is coregulated with IPNS and ACVS after heat shock. Furthermore, we show that different combinations of beta-lactam biosynthesis genes are present in over 60% of springtail families, but they are absent from genome- and transcript libraries of other animals including close relatives of springtails (Protura, Diplura and insects). The presence of beta-lactam genes is strongly correlated with an euedaphic (soil-living) lifestyle. Beta-lactam genes IPNS and ACVS each form a phylogenetic clade in between bacteria and fungi, while cmcI and cmcJ genes cluster within bacteria. This suggests a single horizontal gene transfer event most probably from a bacterial host, followed by differential loss in more recently evolving species. [ABSTRACT FROM AUTHOR]

Published

2017

15. Gene Family Evolution Reflects Adaptation to Soil Environmental Stressors in the Genome of the Collembolan Orchesella cincta.

Author

Faddeeva-Vakhrusheva, Anna, Derks, Martijn F. L., Anvar, Seyed Yahya, Agamennone, Valeria, Suring, Wouter, Smit, Sandra, van Straalen, Nico M., and Roelofs, Dick

Subjects

COLLEMBOLA, ORCHESELLA, GENOMES, GENETIC transformation, HEAVY metals, ENVIRONMENTAL soil science

Abstract

Collembola (springtails) are detritivorous hexapods that inhabit thesoilandits litter layer. Theecology of the springtail Orchesella cincta is extensively studied in the context of adaptation to anthropogenically disturbed areas. Here, we present a draft genome of an O. cincta referencestrainwithanestimatedsize of286.8Mbp, containing20,249genes. In total,446genefamilies areexpandedand1,169gene families evolved specific to this lineage. Besides these gene families involved in general biological processes, we observe gene clusters participating in xenobiotic biotransformation. Furthermore, we identified 253 cases of horizontal gene transfer (HGT). Although the largestpercentageof themoriginatedfrombacteria (37.5%),weobserveanunusuallyhighpercentage (30.4%)of suchgenesof fungal origin. Themajority of foreigngenes are involved incarbohydrate metabolismandcellulosedegradation. Moreover, someforeigngenes (e.g., bacillopeptidases) expanded after HGT. We hypothesize that horizontally transferred genes could be advantageous for food processing in a soil environment that is full of decaying organic material. Finally, we identified several lineage-specific genes, expanded gene families, and horizontally transferred genes, associated with altered gene expression as a consequence of genetic adaptation to metal stress. This suggests that these genome featuresmay be preadaptations allowing natural selection to act on. In conclusion, this genome study provides a solid foundation for further analysis of evolutionary mechanisms of adaptation to environmental stressors. [ABSTRACT FROM AUTHOR]

Published

2016

16. A host-microbial metabolite interaction gut-on-a-chip model of the adult human intestine demonstrates beneficial effects upon inulin treatment of gut microbiome.

Author

Donkers JM, Wiese M, van den Broek TJ, Wierenga E, Agamennone V, Schuren F, and van de Steeg E

Abstract

Background: The gut and its microbiome have a major impact on many aspects of health and are therefore also an attractive target for drug- or food-based therapies. Here, we report on the added value of combining a microbiome screening model, the i-screen, with fresh intestinal tissue explants in a microfluidic gut-on-a-chip model, the Intestinal Explant Barrier Chip (IEBC). Methods: Adult human gut microbiome (fecal pool of 6 healthy donors) was cultured anaerobically in the i-screen platform for 24 h, without and with exposure to 4 mg/mL inulin. The i-screen cell-free culture supernatant was subsequently applied to the luminal side of adult human colon tissue explants ( n = 3 donors), fixed in the IEBC, for 24 h and effects were evaluated. Results: The supplementation of the media with inulin promoted the growth of Anaerostipes , Bifidobacterium , Blautia , and Collinsella in the in vitro i-screen, and triggered an elevated production of butyrate by the microbiota. Human colon tissue exposed to inulin-treated i-screen cell-free culture supernatant or control i-screen cell-free culture supernatant with added short-chain fatty acids (SCFAs) showed improved tissue barrier integrity measured by a 28.2%-34.2% reduction in FITC-dextran 4000 (FD4) leakage and 1.3 times lower transport of antipyrine. Furthermore, the release of pro-inflammatory cytokines IL-1β, IL-6, IL-8, and TNF-α was reduced under these circumstances. Gene expression profiles confirmed these findings, but showed more profound effects for inulin-treated supernatant compared to SCFA-supplemented supernatant. Conclusion: The combination of i-screen and IEBC facilitates the study of complex intestinal processes such as host-microbial metabolite interaction and gut health., Competing Interests: All authors declared that there are no conflicts of interest., (© The Author(s) 2024.)

Published

2024

17. Draft Genome Sequence of Bacillus toyonensis VU-DES13, Isolated from Folsomia candida (Collembola: Entomobryidae).

Author

Janssens TKS, de Boer TE, Agamennone V, Zaagman N, van Straalen NM, and Roelofs D

Abstract

We present here the draft genome of Bacillus toyonensis VU-DES13, which was isolated from the midgut of the soil-living springtail Folsomia candida Previous research revealed the presence of gene clusters for the biosynthesis of various secondary metabolites, including β-lactam antibiotics, in the host's genome. The genome data are discussed in the light of the antimicrobial properties against fungi and oomycetes and a high level of β-lactam resistance of the isolate., (Copyright © 2017 Janssens et al.)

Published

2017

18. Functional environmental genomics of a municipal landfill soil.

Author

Roelofs D, de Boer M, Agamennone V, Bouchier P, Legler J, and van Straalen N

Abstract

We investigated the toxicity of soil samples derived from a former municipal landfill site in the South of the Netherlands, where a bioremediation project is running aiming at reusing the site for recreation. Both an organic soil extract and the original soil sample was investigated using the ISO standardized Folsomia soil ecotoxicological testing and gene expression analysis. The 28 day survival/reproduction test revealed that the ecologically more relevant original soil sample was more toxic than the organic soil extract. Microarray analysis showed that the more toxic soil samples induced gene regulatory changes in twice as less genes compared to the soil extract. Consequently gene regulatory changes were highly dependent on sample type, and were to a lesser extent caused by exposure level. An important biological process shared among the two sample types was the detoxification pathway for xenobiotics (biotransformation I, II, and III) suggesting a link between compound type and observed adverse effects. Finally, we were able to retrieve a selected group of genes that show highly significant dose-dependent gene expression and thus were tightly linked with adverse effects on reproduction. Expression of four cytochrome P450 genes showed highest correlation values with reproduction, and maybe promising genetic markers for soil quality. However, a more elaborate set of environmental soil samples is needed to validate the correlation between gene expression induction and adverse phenotypic effects.

Published

2012