Your search keyword '"Gavriilidou, Asimenia"' showing total 22 results

1. Candidatus Nemesobacterales is a sponge-specific clade of the candidate phylum Desulfobacterota adapted to a symbiotic lifestyle

Author

Gavriilidou, Asimenia, Avcı, Burak, Galani, Anastasia, Schorn, Michelle A., Ingham, Colin J., Ettema, Thijs J. G., Smidt, Hauke, and Sipkema, Detmer

Published

2023

2. Biodiversity, environmental drivers, and sustainability of the global deep-sea sponge microbiome

Author

Busch, Kathrin, Slaby, Beate M., Bach, Wolfgang, Boetius, Antje, Clefsen, Ina, Colaço, Ana, Creemers, Marie, Cristobo, Javier, Federwisch, Luisa, Franke, Andre, Gavriilidou, Asimenia, Hethke, Andrea, Kenchington, Ellen, Mienis, Furu, Mills, Sadie, Riesgo, Ana, Ríos, Pilar, Roberts, Emyr Martyn, Sipkema, Detmer, Pita, Lucía, Schupp, Peter J., Xavier, Joana, Rapp, Hans Tore, and Hentschel, Ute

Published

2022

3. Publisher Correction: Biodiversity, environmental drivers, and sustainability of the global deep-sea sponge microbiome

Author

Busch, Kathrin, Slaby, Beate M., Bach, Wolfgang, Boetius, Antje, Clefsen, Ina, Colaço, Ana, Creemers, Marie, Cristobo, Javier, Federwisch, Luisa, Franke, Andre, Gavriilidou, Asimenia, Hethke, Andrea, Kenchington, Ellen, Mienis, Furu, Mills, Sadie, Riesgo, Ana, Ríos, Pilar, Roberts, Emyr Martyn, Sipkema, Detmer, Pita, Lucía, Schupp, Peter J., Xavier, Joana, Rapp, Hans Tore, and Hentschel, Ute

Published

2022

4. Gut Microbiota Diversity of Local Egyptian Cattle Managed in Different Ecosystems.

Author

Aboshady, Hadeer M., Gavriilidou, Asimenia, Ghanem, Nasser, Radwan, Mohamed A., Elnahas, Ahmed, Agamy, Rania, Fahim, Nadia H., Elsawy, Mohamed H., Shaarawy, Al-Moataz Bellah M., Abdel-Hafeez, Ahmed M., Kantanen, Juha, Ginja, Catarina, Makgahlela, Mahlako L., Kugonza, Donald R., Gonzalez-Prendes, Rayner, and Crooijmans, Richard P. M. A.

Subjects

*ANIMAL adaptation, *GUT microbiome, *MICROBIAL communities, *BACTERIAL communities, *GASTROINTESTINAL system, *MICROBIAL diversity

Abstract

Simple Summary: The gut microbiota has provided valuable insights into understanding an animal's adaptation to its environment. Additionally, it has a significant effect on the animal's performance. Comprehending the composition of the microbiota and its interaction with its host is essential for formulating knowledge-based strategies aimed at improving animal adaptability and productivity. This study aimed to investigate the diversity of the microbiota of local Egyptian cattle in three different ecosystems to gain insights into the potentiality of the adaptation of local Egyptian cattle's microbiota. The results suggest an adaptive response of the animals to their respective/specific environments, with a clear effect of both heat stress and feed type. These findings could be useful in enhancing animal adaptations and productivity. The animal gastrointestinal tract contains a complex microbiome whose composition ultimately reflects the co-evolution of microorganisms with their animal host and their host's environment. This study aimed to gain insights into the adaptation of the microbiota of local Egyptian cattle to three different ecosystems (Upper Egypt, Middle Egypt, and Lower Egypt) distributed across 11 governorates (with an average of 12 animals per governorate) using amplicon sequencing. We analyzed the microbiota from 136 fecal samples of local Egyptian cattle through a 16S rRNA gene sequencing approach to better understand the fecal microbial diversity of this breed which developed under different ecosystems. An alpha diversity analysis showed that the fecal microbiota of the Egyptian cattle was not significantly diverse across areas, seasons, sexes, or farm types. Meanwhile, microbiota data revealed significant differences in richness among age groups (p = 0.0018). The microbial community differed significantly in the distribution of its relative abundance rather than in richness across different ecosystems. The taxonomic analysis of the reads identified Firmicutes and Actinobacteriota as the dominant phyla, accounting for over 93% of the total bacterial community in Egyptian cattle. Middle Egypt exhibited a different microbial community composition compared to Upper and Lower Egypt, with a significantly higher abundance of Firmicutes and Euryarchaeota and a lower abundance of Actinobacteriota in this region than the other two ecosystems. Additionally, Middle Egypt had a significantly higher relative abundance of the Methanobacteriaceae family and the Methanobrevibacter genera than Lower and Upper Egypt. These results suggest a difference in the adaptation of the fecal microbial communities of Egyptian cattle raised in Middle Egypt. At the genus level, eleven genera were significantly different among the three ecosystems including Bacillus, DNF00809, Kandleria, Lachnospiraceae_NK3A20_group, Methanobrevibacter, Mogibacterium, Olsenella, Paeniclostridium, Romboutsia, Turicibacter, and UCG-005. These significant differences in microbiota composition may impact the animal's adaptation to varied environments. [ABSTRACT FROM AUTHOR]

Published

2024

5. Comparative genomic analysis of Flavobacteriaceae: insights into carbohydrate metabolism, gliding motility and secondary metabolite biosynthesis

Author

Gavriilidou, Asimenia, Gutleben, Johanna, Versluis, Dennis, Forgiarini, Francesca, van Passel, Mark W. J., Ingham, Colin J., Smidt, Hauke, and Sipkema, Detmer

Published

2020

6. Distribution and diversity of ‘Tectomicrobia’, a deep-branching uncultivated bacterial lineage harboring rich producers of bioactive metabolites

Author

Peters, Eike E., primary, Cahn, Jackson K. B., additional, Lotti, Alessandro, additional, Gavriilidou, Asimenia, additional, Steffens, Ursula A. E., additional, Loureiro, Catarina, additional, Schorn, Michelle A., additional, Cárdenas, Paco, additional, Vickneswaran, Nilani, additional, Crews, Phillip, additional, Sipkema, Detmer, additional, and Piel, Jörn, additional

Published

2023

7. GEO_EBI_NCBI_Ca. Nemesobacterales, a sponge-specific clade of Desulfobacterota adapted to symbiotic lifestyle

Author

Gavriilidou, Asimenia, Avcı, Burak, Galani, Anastasia, Schorn, Michelle A., Ingham, Colin J., Ettema, Thijs J.G., Smidt, Hauke, Sipkema, Detmer, Gavriilidou, Asimenia, Avcı, Burak, Galani, Anastasia, Schorn, Michelle A., Ingham, Colin J., Ettema, Thijs J.G., Smidt, Hauke, and Sipkema, Detmer

Abstract

Members of the candidate phylum Dadabacteria, recently reassigned to the phylum Candidatus Desulfobacterota, are cosmopolitan in the marine environment, and are found both free-living and associated with hosts that are mainly marine sponges. Yet, these microorganisms are poorly characterised, showing an ambiguous phylogeny and having no cultured representatives. Here, we performed genome-centric metagenomics to elucidate the phylogeny and predict the metabolism of the sponge-associated members of this lineage. Rank-based phylogenomics revealed several new species and a novel family (Candidatus Spongomicrobiaceae) within a sponge-specific order, named here Candidatus Nemesobacterales (GTDB order RKRQ01). Metabolic reconstruction suggests that Ca. Nemesobacterales are aerobic heterotrophs, capable of synthesizing most amino acids, vitamins and cofactors and degrading complex carbohydrates. We also report functional divergence between sponge- and seawater-associated metagenome-assembled genomes (MAGs). Niche-specific adaptations to the sponge holobiont were evident from significantly enriched genes involved in defense mechanisms against foreign DNA and environmental stressors, host-symbiont interactions and secondary metabolite production. Fluorescencet in situ hybridization (FISH) gave a first glimpse of the morphology and lifestyle of a member of Ca. Desulfobacterota. The Candidatus Nemesobacterales spp. rappii wereas found inside bacteriocytes in the tissue mesohyl of the sponge Geodia barretti. Altogether, this is the first study that sheds light on the enigmatic group Ca. Nemesobacterales and their functional characteristics which reflect a symbiotic lifestyle., Members of the candidate phylum Dadabacteria, recently reassigned to the phylum Candidatus Desulfobacterota, are cosmopolitan in the marine environment, and are found both free-living and associated with hosts that are mainly marine sponges. Yet, these microorganisms are poorly characterised, showing an ambiguous phylogeny and having no cultured representatives. Here, we performed genome-centric metagenomics to elucidate the phylogeny and predict the metabolism of the sponge-associated members of this lineage. Rank-based phylogenomics revealed several new species and a novel family (Candidatus Spongomicrobiaceae) within a sponge-specific order, named here Candidatus Nemesobacterales (GTDB order RKRQ01). Metabolic reconstruction suggests that Ca. Nemesobacterales are aerobic heterotrophs, capable of synthesizing most amino acids, vitamins and cofactors and degrading complex carbohydrates. We also report functional divergence between sponge- and seawater-associated metagenome-assembled genomes (MAGs). Niche-specific adaptations to the sponge holobiont were evident from significantly enriched genes involved in defense mechanisms against foreign DNA and environmental stressors, host-symbiont interactions and secondary metabolite production. Fluorescencet in situ hybridization (FISH) gave a first glimpse of the morphology and lifestyle of a member of Ca. Desulfobacterota. The Candidatus Nemesobacterales spp. rappii wereas found inside bacteriocytes in the tissue mesohyl of the sponge Geodia barretti. Altogether, this is the first study that sheds light on the enigmatic group Ca. Nemesobacterales and their functional characteristics which reflect a symbiotic lifestyle.

Published

2023

8. Distribution and diversity of Candidatus Tectomicrobia harbouring rich producers of bioactive metabolites

Author

Gavriilidou, Asimenia, Avcı, Burak, Galani, Anastasia, Schorn, Michelle A., Ingham, Colin J., Ettema, Thijs J.G., Smidt, Hauke, Sipkema, Detmer, Gavriilidou, Asimenia, Avcı, Burak, Galani, Anastasia, Schorn, Michelle A., Ingham, Colin J., Ettema, Thijs J.G., Smidt, Hauke, and Sipkema, Detmer

Abstract

Genomic and functional analyses of bacteria belonging to the candidate genus ‘Entotheonella’ have revealed them as the producers of diverse bioactive compounds previously identified from their sponge hosts. Based on genetic distance to other taxa, ‘Candidatus Entotheonella’ has been proposed as the first member of a new candidate phylum, ‘Tectomicrobia’. Here, we analysed environmental samples and publicly available 16S ribosomal RNA (rRNA) gene sequences to assess the phylogenetic structure and environmental distribution of this as-yet sparsely populated lineage. The data showed that ‘Ca. Entotheonella’ and other 'Ca. Tectomicrobia' were not restricted to marine habitats but also widely distributed among terrestrial locations. Environmental factors, such as water depth and host association were identified to correlate with the phylogenetic patterns of marine phylotypes. The previously described ‘Ca. Entotheonella’ lineage could be more accurately divided into at least three different candidate genera with the terrestrial 'Candidatus Prasianella', the marine 'Candidatus Thalassonella' and the more widely distributed 'Ca. Entotheonella' of mixed origin. This first metagenomic and microscopic characterization of 'Ca. Thalassonella' from a range of sponge hosts did not suggest a role for its members as providers of natural products, despite clear similarities in genome-based predictions of primary metabolism and implied lifestyle with ‘Ca. Entotheonella’. In contrast, within the revised ‘Ca. Entotheonella’, the analysis revealed a correlation between the 16S rRNA gene phylogeny and a specific association with sponges and their chemistry, suggesting that this feature might serve as a discovery method to accelerate the identification of new ‘Ca. Entotheonella’ producers of bioactive compounds. Application of this strategy led to the identification of the first ‘Ca. Entotheonella’ symbiont in a non-lithistid sponge, Psammocinia sp., thus indicating a wider host distributi, Genomic and functional analyses of bacteria belonging to the candidate genus ‘Entotheonella’ have revealed them as the producers of diverse bioactive compounds previously identified from their sponge hosts. Based on genetic distance to other taxa, ‘Candidatus Entotheonella’ has been proposed as the first member of a new candidate phylum, ‘Tectomicrobia’. Here, we analysed environmental samples and publicly available 16S ribosomal RNA (rRNA) gene sequences to assess the phylogenetic structure and environmental distribution of this as-yet sparsely populated lineage. The data showed that ‘Ca. Entotheonella’ and other 'Ca. Tectomicrobia' were not restricted to marine habitats but also widely distributed among terrestrial locations. Environmental factors, such as water depth and host association were identified to correlate with the phylogenetic patterns of marine phylotypes. The previously described ‘Ca. Entotheonella’ lineage could be more accurately divided into at least three different candidate genera with the terrestrial 'Candidatus Prasianella', the marine 'Candidatus Thalassonella' and the more widely distributed 'Ca. Entotheonella' of mixed origin. This first metagenomic and microscopic characterization of 'Ca. Thalassonella' from a range of sponge hosts did not suggest a role for its members as providers of natural products, despite clear similarities in genome-based predictions of primary metabolism and implied lifestyle with ‘Ca. Entotheonella’. In contrast, within the revised ‘Ca. Entotheonella’, the analysis revealed a correlation between the 16S rRNA gene phylogeny and a specific association with sponges and their chemistry, suggesting that this feature might serve as a discovery method to accelerate the identification of new ‘Ca. Entotheonella’ producers of bioactive compounds. Application of this strategy led to the identification of the first ‘Ca. Entotheonella’ symbiont in a non-lithistid sponge, Psammocinia sp., thus indicating a wider host distributi

Published

2023

9. Distribution and diversity of 'Tectomicrobia', a deep-branching uncultivated bacterial lineage harboring rich producers of bioactive metabolites

Author

Peters, Eike E., Cahn, Jackson K. B., Lotti, Alessandro, Gavriilidou, Asimenia, Steffens, Ursula A. E., Loureiro, Catarina, Schorn, Michelle A., Cárdenas, Paco, Vickneswaran, Nilani, Crews, Phillip, Sipkema, Detmer, Piel, Jörn, Peters, Eike E., Cahn, Jackson K. B., Lotti, Alessandro, Gavriilidou, Asimenia, Steffens, Ursula A. E., Loureiro, Catarina, Schorn, Michelle A., Cárdenas, Paco, Vickneswaran, Nilani, Crews, Phillip, Sipkema, Detmer, and Piel, Jörn

Abstract

Genomic and functional analyses of bacterial sponge symbionts belonging to the uncultivated candidate genus ‘Entotheonella’ has revealed them as the prolific producers of bioactive compounds previously identified from their invertebrate hosts. These studies also suggested ‘Entotheonella’ as the first members of a new candidate phylum, ‘Tectomicrobia’. Here we analyzed the phylogenetic structure and environmental distribution of this as-yet sparsely populated phylum-like lineage. The data show that ‘Entotheonella’ and other ‘Tectomicrobia’ are not restricted to marine habitats but widely distributed among terrestrial locations. The inferred phylogenetic trees suggest several intra-phylum lineages with diverse lifestyles. Of these, the previously described ‘Entotheonella’ lineage can be more accurately divided into at least three different candidate genera with the terrestrial ‘Candidatus Prasianella’, the largely terrestrial ‘Candidatus Allonella’, the ‘Candidatus Thalassonella’ comprising sponge-associated members, and the more widely distributed ‘Candidatus Entotheonella’. Genomic characterization of ‘Thalassonella’ members from a range of sponge hosts did not suggest a role as providers of natural products, despite high genomic similarity to ‘Entotheonella’ regarding primary metabolism and implied lifestyle. In contrast, the analysis revealed a correlation between the revised ‘Entotheonella’ 16S rRNA gene phylogeny and a specific association with sponges and their natural products. This feature might serve as a discovery method to accelerate the identification of new chemically rich ‘Entotheonella’ variants, and led to the identification of the first ‘Entotheonella’ symbiont in a non-tetractinellid sponge, Psammocinia sp., indicating a wide host distribution of ‘Entotheonella’-based chemical symbiosis.

Published

2023

10. Distribution and diversity of ‘Tectomicrobia’, a deep-branching uncultivated bacterial lineage harboring rich producers of bioactive metabolites

Author

Peters, Eike, Cahn, Jackson, Lotti, Alessandro, Gavriilidou, Asimenia, Steffens, Ursula, Loureiro, Catarina, Schorn, Michelle, Cárdenas, Paco, Vickneswaran, Nilani, Crews, Phillip, Sipkema, Detmer, Piel, Jörn, Peters, Eike, Cahn, Jackson, Lotti, Alessandro, Gavriilidou, Asimenia, Steffens, Ursula, Loureiro, Catarina, Schorn, Michelle, Cárdenas, Paco, Vickneswaran, Nilani, Crews, Phillip, Sipkema, Detmer, and Piel, Jörn

Abstract

Genomic and functional analyses of bacterial sponge symbionts belonging to the uncultivated candidate genus ‘Entotheonella’ has revealed them as the prolific producers of bioactive compounds previously identified from their invertebrate hosts. These studies also suggested ‘Entotheonella’ as the first members of a new candidate phylum, ‘Tectomicrobia’. Here we analyzed the phylogenetic structure and environmental distribution of this as-yet sparsely populated phylum-like lineage. The data show that ‘Entotheonella’ and other ‘Tectomicrobia’ are not restricted to marine habitats but widely distributed among terrestrial locations. The inferred phylogenetic trees suggest several intra-phylum lineages with diverse lifestyles. Of these, the previously described ‘Entotheonella’ lineage can be more accurately divided into at least three different candidate genera with the terrestrial ‘Candidatus Prasianella’, the largely terrestrial ‘Candidatus Allonella’, the ‘Candidatus Thalassonella’ comprising sponge-associated members, and the more widely distributed ‘Candidatus Entotheonella’. Genomic characterization of ‘Thalassonella’ members from a range of sponge hosts did not suggest a role as providers of natural products, despite high genomic similarity to ‘Entotheonella’ regarding primary metabolism and implied lifestyle. In contrast, the analysis revealed a correlation between the revised ‘Entotheonella’ 16S rRNA gene phylogeny and a specific association with sponges and their natural products. This feature might serve as a discovery method to accelerate the identification of new chemically rich ‘Entotheonella’ variants, and led to the identification of the first ‘Entotheonella’ symbiont in a non-tetractinellid sponge, Psammocinia sp., indicating a wide host distribution of ‘Entotheonella’-based chemical symbiosis.

Published

2023

11. CandidatusNemesobacterales is a sponge-specific clade of the candidate phylum Desulfobacterota adapted to a symbiotic lifestyle

Author

Gavriilidou, Asimenia, Avci, Burak, Galani, Anastasia, Schorn, Michelle A, Ingham, Colin J, Ettema, Thijs J G, Smidt, Hauke, and Sipkema, Detmer

Abstract

Members of the candidate phylum Dadabacteria, recently reassigned to the phylum CandidatusDesulfobacterota, are cosmopolitan in the marine environment found both free-living and associated with hosts that are mainly marine sponges. Yet, these microorganisms are poorly characterized, with no cultured representatives and an ambiguous phylogenetic position in the tree of life. Here, we performed genome-centric metagenomics to elucidate their phylogenomic placement and predict the metabolism of the sponge-associated members of this lineage. Rank-based phylogenomics revealed several new species and a novel family (CandidatusSpongomicrobiaceae) within a sponge-specific order, named here CandidatusNemesobacterales. Metabolic reconstruction suggests that Ca. Nemesobacterales are aerobic heterotrophs, capable of synthesizing most amino acids, vitamins and cofactors and degrading complex carbohydrates. We also report functional divergence between sponge- and seawater-associated metagenome-assembled genomes. Niche-specific adaptations to the sponge holobiont were evident from significantly enriched genes involved in defense mechanisms against foreign DNA and environmental stressors, host-symbiont interactions and secondary metabolite production. Fluorescence in situ hybridization gave a first glimpse of the morphology and lifestyle of a member of Ca. Desulfobacterota. CandidatusNemesobacterales spp. were found both inside sponge cells centred around sponge nuclei and in the mesohyl of the sponge Geodia barretti. This study sheds light on the enigmatic group Ca. Nemesobacterales and their functional characteristics that reflect a symbiotic lifestyle.

Published

2023

12. Comparative Metagenomic Analysis of Biosynthetic Diversity across Sponge Microbiomes Highlights Metabolic Novelty, Conservation, and Diversification

Author

Loureiro, Catarina, primary, Galani, Anastasia, additional, Gavriilidou, Asimenia, additional, Chaib de Mares, Maryam, additional, van der Oost, John, additional, Medema, Marnix H., additional, and Sipkema, Detmer, additional

Published

2022

13. Zooming into the sponge microbiome in the omics era

Author

Sipkema, D., Smidt, H., Ingham, C.J., Gavriilidou, Asimenia, Sipkema, D., Smidt, H., Ingham, C.J., and Gavriilidou, Asimenia

Abstract

Marine sponges represent an excellent example of host-microbe symbiosis. Yet, most sponge-associated microorganisms remain uncultured, hampering efforts in determining interactions with their sponge host. This project aimed at enhancing our understanding of the sponge-bacteria interplay, focusing on both cultured and yet-uncultured sponge-associated lineages. Several novel sponge-associated taxa were elucidated by resolving their phylogeny and reconstructing their primary and secondary metabolism. Genome-based predictions revealed that the sponge microbiome mediates the interactions of the holobiont via heterotrophy, potential metabolite exchange and chemical defense. Sponge symbionts also possessed an extended genomic repertoire of defense systems implying adaptation to host environment. Moreover, genome mining for biosynthetic gene clusters (BGCs) and bioactivity screening of sponge-associated strains detected many candidate BGCs potentially involved in observed anticancer and antibacterial activity. Altogether, this work shed light into novel sponge-associated phylotypes, features that point at a symbiotic lifestyle and a rich secondary metabolite biosynthesis arsenal with biotechnological potential.

Published

2022

14. Biodiversity, environmental drivers, and sustainability of the global deep-sea sponge microbiome

Author

European Commission, German Research Foundation, Foundation for Science and Technology, Helmholtz Association, Agencia Estatal de Investigación (España), Bush, Kathrin, Slaby, Beate M., Bach, Wolfgang, Boetius, Antje, Clefsen, Ina, Colaço, Ana, Creemers, Marie, Cristobo, Javier, Federwisch, Luisa, Franke, Andre, Gavriilidou, Asimenia, Hethke, Andrea, Kenchington, Ellen, Mienis, Furu, Mills, Sadie, Riesgo Gil, Ana, Ríos, Pilar, Roberts, Emyr Martyn, Sipkema, Detmer, Pita, Lucía, Schupp, Peter J., Xavier, Joana R., Rapp, Hans Tore, Henstchel, Ute, European Commission, German Research Foundation, Foundation for Science and Technology, Helmholtz Association, Agencia Estatal de Investigación (España), Bush, Kathrin, Slaby, Beate M., Bach, Wolfgang, Boetius, Antje, Clefsen, Ina, Colaço, Ana, Creemers, Marie, Cristobo, Javier, Federwisch, Luisa, Franke, Andre, Gavriilidou, Asimenia, Hethke, Andrea, Kenchington, Ellen, Mienis, Furu, Mills, Sadie, Riesgo Gil, Ana, Ríos, Pilar, Roberts, Emyr Martyn, Sipkema, Detmer, Pita, Lucía, Schupp, Peter J., Xavier, Joana R., Rapp, Hans Tore, and Henstchel, Ute

Abstract

In the deep ocean symbioses between microbes and invertebrates are emerging as key drivers of ecosystem health and services. We present a large-scale analysis of microbial diversity in deep-sea sponges (Porifera) from scales of sponge individuals to ocean basins, covering 52 locations, 1077 host individuals translating into 169 sponge species (including understudied glass sponges), and 469 reference samples, collected anew during 21 ship-based expeditions. We demonstrate the impacts of the sponge microbial abundance status, geographic distance, sponge phylogeny, and the physicalbiogeochemical environment as drivers of microbiome composition, in descending order of relevance. Our study further discloses that fundamental concepts of sponge microbiology apply robustly to sponges from the deep-sea across distances of >10,000 km. Deep-sea sponge microbiomes are less complex, yet more heterogeneous, than their shallow-water counterparts. Our analysis underscores the uniqueness of each deep-sea sponge ground based on which we provide critical knowledge for conservation of these vulnerable ecosystems.

Published

2022

15. Comparative Metagenomic Analysis of Biosynthetic Diversity across Sponge Microbiomes Highlights Metabolic Novelty, Conservation, and Diversification

Author

Loureiro, Catarina, Galani, Anastasia, Gavriilidou, Asimenia, de Mares, Maryam Chaib, van der Oost, John, Medema, Marnix H., Sipkema, Detmer, Loureiro, Catarina, Galani, Anastasia, Gavriilidou, Asimenia, de Mares, Maryam Chaib, van der Oost, John, Medema, Marnix H., and Sipkema, Detmer

Abstract

Marine sponges and their microbial symbiotic communities are rich sources of diverse natural products (NPs) that often display biological activity, yet little is known about the global distribution of NPs and the symbionts that produce them. Since the majority of sponge symbionts remain uncultured, it is a challenge to characterize their NP biosynthetic pathways, assess their prevalence within the holobiont, and measure the diversity of NP biosynthetic gene clusters (BGCs) across sponge taxa and environments. Here, we explore the microbial biosynthetic landscapes of three high-microbial-abundance (HMA) sponges from the Atlantic Ocean and the Mediterranean Sea. This data set reveals striking novelty, with,1% of the recovered gene cluster families (GCFs) showing similarity to any characterized BGC. When zooming in on the microbial communities of each sponge, we observed higher variability of specialized metabolic and taxonomic profiles between sponge species than within species. Nonetheless, we identified conservation of GCFs, with 20% of sponge GCFs being shared between at least two sponge species and a GCF core comprised of 6% of GCFs shared across all species. Within this functional core, we identified a set of widespread and diverse GCFs encoding nonribosomal peptide synthetases that are potentially involved in the production of diversified ether lipids, as well as GCFs putatively encoding the production of highly modified proteusins. The present work contributes to the small, yet growing body of data characterizing NP landscapes of marine sponge symbionts and to the cryptic biosynthetic potential contained in this environmental niche.

Published

2022

16. marine sponge biosynthetic profiles

Author

Gavriilidou, Asimenia, Avcı, Burak, Galani, Anastasia, Schorn, Michelle A., Ingham, Colin J., Ettema, Thijs J.G., Smidt, Hauke, Sipkema, Detmer, Gavriilidou, Asimenia, Avcı, Burak, Galani, Anastasia, Schorn, Michelle A., Ingham, Colin J., Ettema, Thijs J.G., Smidt, Hauke, and Sipkema, Detmer

Abstract

specialised metabolism characterisation of metagenomes of three high microbial abundance marine sponges, aplysina aerophoba, petrosia ficiformis and geodia barretti. assemblies and binned genomes were generated and analysed for presence and diversity of biosynthetic gene clusters., specialised metabolism characterisation of metagenomes of three high microbial abundance marine sponges, aplysina aerophoba, petrosia ficiformis and geodia barretti. assemblies and binned genomes were generated and analysed for presence and diversity of biosynthetic gene clusters.

Published

2022

17. Zooming into the sponge microbiome in the omics era

Author

Gavriilidou, Asimenia, Wageningen University, D. Sipkema, H. Smidt, and C.J. Ingham

Subjects

WIMEK, Microbiologie, Life Science, MolEco, Microbiology

Abstract

Marine sponges represent an excellent example of host-microbe symbiosis. Yet, most sponge-associated microorganisms remain uncultured, hampering efforts in determining interactions with their sponge host. This project aimed at enhancing our understanding of the sponge-bacteria interplay, focusing on both cultured and yet-uncultured sponge-associated lineages. Several novel sponge-associated taxa were elucidated by resolving their phylogeny and reconstructing their primary and secondary metabolism. Genome-based predictions revealed that the sponge microbiome mediates the interactions of the holobiont via heterotrophy, potential metabolite exchange and chemical defense. Sponge symbionts also possessed an extended genomic repertoire of defense systems implying adaptation to host environment. Moreover, genome mining for biosynthetic gene clusters (BGCs) and bioactivity screening of sponge-associated strains detected many candidate BGCs potentially involved in observed anticancer and antibacterial activity. Altogether, this work shed light into novel sponge-associated phylotypes, features that point at a symbiotic lifestyle and a rich secondary metabolite biosynthesis arsenal with biotechnological potential.

Published

2022

18. Bioactivity screening and gene-trait matching of sponge-associated bacteria

Author

Gavriilidou, Asimenia, Mackenzie, Thomas Andrew, Sánchez, Pilar, Tormo, José Ruben, Ingham, Colin, Smidt, Hauke, Sipkema, Detmer, Gavriilidou, Asimenia, Mackenzie, Thomas Andrew, Sánchez, Pilar, Tormo, José Ruben, Ingham, Colin, Smidt, Hauke, and Sipkema, Detmer

Abstract

This dataset includes raw sequencing reads, draft genome assemblies and 16S rRNA gene sequences of bacteria isolated from different marine sponge species.

Published

2021

19. Bioactivity Screening and Gene-Trait Matching across Marine Sponge-Associated Bacteria

Author

Gavriilidou, Asimenia, Mackenzie, Thomas Andrew, Sánchez, Pilar, Tormo, José Ruben, Ingham, Colin, Smidt, Hauke, Sipkema, Detmer, Gavriilidou, Asimenia, Mackenzie, Thomas Andrew, Sánchez, Pilar, Tormo, José Ruben, Ingham, Colin, Smidt, Hauke, and Sipkema, Detmer

Abstract

Marine sponges harbor diverse microbial communities that represent a significant source of natural products. In the present study, extracts of 21 sponge-associated bacteria were screened for their antimicrobial and anticancer activity, and their genomes were mined for secondary metabolite biosynthetic gene clusters (BGCs). Phylogenetic analysis assigned the strains to four major phyla in the sponge microbiome, namely Proteobacteria, Actinobacteria, Bacteroidetes, and Firmicutes. Bioassays identified one extract with anti-methicillin-resistant Staphylococcus aureus (MRSA) activity, and more than 70% of the total extracts had a moderate to high cytotoxicity. The most active extracts were derived from the Proteobacteria and Actinobacteria, prominent for producing bioactive substances. The strong bioactivity potential of the aforementioned strains was also evident in the abundance of BGCs, which encoded mainly beta-lactones, bacteriocins, non-ribosomal peptide synthetases (NRPS), terpenes, and siderophores. Gene-trait matching was performed for the most active strains, aiming at linking their biosynthetic potential with the experimental results. Genetic associations were established for the anti-MRSA and cytotoxic phenotypes based on the similarity of the detected BGCs with BGCs encoding natural products with known bioactivity. Overall, our study highlights the significance of combining in vitro and in silico approaches in the search of novel natural products of pharmaceutical interest.

Published

2021

20. Additional file 2 of Comparative genomic analysis of Flavobacteriaceae: insights into carbohydrate metabolism, gliding motility and secondary metabolite biosynthesis

Author

Gavriilidou, Asimenia, Gutleben, Johanna, Versluis, Dennis, Forgiarini, Francesca, Passel, Mark W. J. Van, Ingham, Colin J., Smidt, Hauke, and Sipkema, Detmer

Abstract

Additional file 2:. Publicly available genomes used in this study.

Published

2020

21. Genome sequencing of Marine Flavobacteriaceae isolated from sponges

Author

Gavriilidou, Asimenia, Gutleben, Johanna, Versluis, Dennis, Forgiarini, Francesca, van Passel, Mark, Ingham, Colin J., Smidt, Hauke, Sipkema, Detmer, Gavriilidou, Asimenia, Gutleben, Johanna, Versluis, Dennis, Forgiarini, Francesca, van Passel, Mark, Ingham, Colin J., Smidt, Hauke, and Sipkema, Detmer

Abstract

Genomic sequences of sponge-derived Flavobacteriaceae were generated. A comparative genomics analysis elucidated the functional repertoire of the family Flavobacteriaceae from different environmental sources, with a focus on the Marine clade.

Published

2020

22. Bioactivity Screening and Gene-Trait Matching across Marine Sponge-Associated Bacteria

Author

Gavriilidou, Asimenia, primary, Mackenzie, Thomas Andrew, additional, Sánchez, Pilar, additional, Tormo, José Ruben, additional, Ingham, Colin, additional, Smidt, Hauke, additional, and Sipkema, Detmer, additional

Published

2021