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4. Caenorhabditis elegans as a Model for Microbiome Research

Author

Zhang, Fan, Berg, Maureen, Dierking, Katja, Félix, Marie-Anne, Shapira, Michael, Samuel, Buck S, and Schulenburg, Hinrich

Subjects
Microbiology, Biological Sciences, Ecology, Caenorhabditis elegans, microbiome, microbiota, meta-analysis, Enterobacter, Gluconobacter, Pseudomonas, Ochrobactrum, Environmental Science and Management, Soil Sciences, Medical microbiology
Abstract

The nematode Caenorhabditis elegans is used as a central model system across biological disciplines. Surprisingly, almost all research with this worm is performed in the absence of its native microbiome, possibly affecting generality of the obtained results. In fact, the C. elegans microbiome had been unknown until recently. This review brings together results from the first three studies on C. elegans microbiomes, all published in 2016. Meta-analysis of the data demonstrates a considerable conservation in the composition of the microbial communities, despite the distinct geographical sample origins, study approaches, labs involved and perturbations during worm processing. The C. elegans microbiome is enriched and in some cases selective for distinct phylotypes compared to corresponding substrate samples (e.g., rotting fruits, decomposing plant matter, and compost soil). The dominant bacterial groups include several Gammaproteobacteria (Enterobacteriaceae, Pseudomonaceae, and Xanthomonodaceae) and Bacteroidetes (Sphingobacteriaceae, Weeksellaceae, Flavobacteriaceae). They are consistently joined by several rare putative keystone taxa like Acetobacteriaceae. The bacteria are able to enhance growth of nematode populations, as well as resistance to biotic and abiotic stressors, including high/low temperatures, osmotic stress, and pathogenic bacteria and fungi. The associated microbes thus appear to display a variety of effects beneficial for the worm. The characteristics of these effects, their relevance for C. elegans fitness, the presence of specific co-adaptations between microbiome members and the worm, and the molecular underpinnings of microbiome-host interactions represent promising areas of future research, for which the advantages of C. elegans as an experimental system should prove of particular value.

Published
2017

6. Polyketide synthase-derived sphingolipids determine microbiota-mediated protection against pathogens inC. elegans

Author

Peters, Lena, primary, Drechsler, Moritz, additional, Pees, Barbara, additional, Angelidou, Georgia, additional, Salzer, Liesa, additional, Moors, Karlis Arturs, additional, Paczia, Nicole, additional, Schulenburg, Hinrich, additional, Shi, Yi-Ming, additional, Kaleta, Christoph, additional, Witting, Michael, additional, Bode, Helge B., additional, and Dierking, Katja, additional

Published
2024
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7. Polyketide synthase-derived sphingolipids determine microbiota-mediated protection against pathogens in C. elegans

Author

Peters*, Lena, primary, Drechsler*, Moritz, additional, Pees, Barbara, additional, Angelidou, Georgia, additional, Salzer, Liesa, additional, Moors, Karlis Arturs, additional, Paczia, Nicole, additional, Schulenburg, Hinrich, additional, Shi, Yi-Ming, additional, Kaleta, Christoph, additional, Witting, Michael, additional, Bode**, Helge B., additional, and Dierking**, Katja, additional

Published
2024
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8. 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
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15. Comparative analysis of amplicon and metagenomic sequencing methods reveals key features in the evolution of animal metaorganisms

Author

Rausch, Philipp, Rühlemann, Malte, Hermes, Britt M., Doms, Shauni, Dagan, Tal, Dierking, Katja, Domin, Hanna, Fraune, Sebastian, von Frieling, Jakob, Hentschel, Ute, Heinsen, Femke-Anouska, Höppner, Marc, Jahn, Martin T., Jaspers, Cornelia, Kissoyan, Kohar Annie B., Langfeldt, Daniela, Rehman, Ateequr, Reusch, Thorsten B. H., Roeder, Thomas, Schmitz, Ruth A., Schulenburg, Hinrich, Soluch, Ryszard, Sommer, Felix, Stukenbrock, Eva, Weiland-Bräuer, Nancy, Rosenstiel, Philip, Franke, Andre, Bosch, Thomas, and Baines, John F.

Published
2019
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18. 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
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27. The C. elegans GATA transcription factor elt-2 mediates distinct transcriptional responses and opposite infection outcomes towards different Bacillus thuringiensis strains

Author

Zárate-Potes, Alejandra, primary, Yang, Wentao, additional, Pees, Barbara, additional, Schalkowski, Rebecca, additional, Segler, Philipp, additional, Andresen, Bentje, additional, Haase, Daniela, additional, Nakad, Rania, additional, Rosenstiel, Philip, additional, Tetreau, Guillaume, additional, Colletier, Jacques-Philippe, additional, Schulenburg, Hinrich, additional, and Dierking, Katja, additional

Published
2020
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30. The C. elegans GATA transcription factor elt-2 mediates distinct transcriptional responses and opposite infection outcomes towards different Bacillus thuringiensis strains

Author

Collins, James J., Zárate-Potes, Alejandra, Yang, Wentao, Pees, Barbara, Schalkowski, Rebecca, Segler, Philipp, Andresen, Bentje, Haase, Daniela, Nakad, Rania, Rosenstiel, Philip, Tetreau, Guillaume, Colletier, Jacques-Philippe, Schulenburg, Hinrich, Dierking, Katja, Collins, James J., Zárate-Potes, Alejandra, Yang, Wentao, Pees, Barbara, Schalkowski, Rebecca, Segler, Philipp, Andresen, Bentje, Haase, Daniela, Nakad, Rania, Rosenstiel, Philip, Tetreau, Guillaume, Colletier, Jacques-Philippe, Schulenburg, Hinrich, and Dierking, Katja

Abstract

The nematode Caenorhabditis elegans has been extensively used as a model for the study of innate immune responses against bacterial pathogens. While it is well established that the worm mounts distinct transcriptional responses to different bacterial species, it is still unclear in how far it can fine-tune its response to different strains of a single pathogen species, especially if the strains vary in virulence and infection dynamics. To rectify this knowledge gap, we systematically analyzed the C. elegans response to two strains of Bacillus thuringiensis (Bt), MYBt18247 (Bt247) and MYBt18679 (Bt679), which produce different pore forming toxins (PFTs) and vary in infection dynamics. We combined host transcriptomics with cytopathological characterizations and identified both a common and also a differentiated response to the two strains, the latter comprising almost 10% of the infection responsive genes. Functional genetic analyses revealed that the AP-1 component gene jun-1 mediates the common response to both Bt strains. In contrast, the strain-specific response is mediated by the C. elegans GATA transcription factor ELT-2, a homolog of Drosophila SERPENT and vertebrate GATA4-6, and a known master regulator of intestinal responses in the nematode. elt-2 RNAi knockdown decreased resistance to Bt679, but remarkably, increased survival on Bt247. The elt-2 silencing-mediated increase in survival was characterized by reduced intestinal tissue damage despite a high pathogen burden and might thus involve increased tolerance. Additional functional genetic analyses confirmed the involvement of distinct signaling pathways in the C. elegans defense response: the p38-MAPK pathway acts either directly with or in parallel to elt-2 in mediating resistance to Bt679 infection but is not required for protection against Bt247. Our results further suggest that the elt-2 silencing-mediated increase in survival on Bt247 is multifactorial, influenced by the nuclear hormone receptors NHR

Published
2020

31. Receptors Mediating Host-Microbiota Communication in the Metaorganism: The Invertebrate Perspective

Author

Dierking, Katja, Pita, Lucia, Dierking, Katja, and Pita, Lucia

Abstract

Multicellular organisms live in close association with a plethora of microorganism, which have a profound effect on multiple host functions. As such, the microbiota and its host form an intimate functional entity, termed the metaorganism or holobiont. But how does the metaorganism communicate? Which receptors recognize microbial signals, mediate the effect of the microbiota on host physiology or regulate microbiota composition and homeostasis? In this review we provide an overview on the function of different receptor classes in animal host-microbiota communication. We put a special focus on invertebrate hosts, including both traditional invertebrate models such as Drosophila melanogaster and Caenorhabditis elegans and “non-model” invertebrates in microbiota research. Finally, we highlight the potential of invertebrate systems in studying mechanism of host-microbiota interactions.

Published
2020
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32. The C. elegans GATA transcription factor elt-2 mediates distinct transcriptional responses and opposite infection outcomes towards different Bacillus thuringiensis strains

Author

Zárate-Potes, Alejandra, Yang, Wentao, Pees, Barbara, Schalkowski, Rebecca, Segler, Philipp, Andresen, Bentje, Haase, Daniela, Nakad, Rania, Rosenstiel, Philip, Tetreau, Guillaume, Colletier, Jacques-Philippe, Schulenburg, Hinrich, Dierking, Katja, Zárate-Potes, Alejandra, Yang, Wentao, Pees, Barbara, Schalkowski, Rebecca, Segler, Philipp, Andresen, Bentje, Haase, Daniela, Nakad, Rania, Rosenstiel, Philip, Tetreau, Guillaume, Colletier, Jacques-Philippe, Schulenburg, Hinrich, and Dierking, Katja

Abstract

The nematode Caenorhabditis elegans has been extensively used as a model for the study of innate immune responses against bacterial pathogens. While it is well established that the worm mounts distinct transcriptional responses to different bacterial species, it is still unclear in how far it can fine-tune its response to different strains of a single pathogen species, especially if the strains vary in virulence and infection dynamics. To rectify this knowledge gap, we systematically analyzed the C. elegans response to two strains of Bacillus thuringiensis (Bt), MYBt18247 (Bt247) and MYBt18679 (Bt679), which produce different pore forming toxins (PFTs) and vary in infection dynamics. We combined host transcriptomics with cytopathological characterizations and identified both a common and also a differentiated response to the two strains, the latter comprising almost 10% of the infection responsive genes. Functional genetic analyses revealed that the AP-1 component gene jun-1 mediates the common response to both Bt strains. In contrast, the strain-specific response is mediated by the C. elegans GATA transcription factor ELT-2, a homolog of Drosophila SERPENT and vertebrate GATA4-6, and a known master regulator of intestinal responses in the nematode. elt-2 RNAi knockdown decreased resistance to Bt679, but remarkably, increased survival on Bt247. The elt-2 silencing-mediated increase in survival was characterized by reduced intestinal tissue damage despite a high pathogen burden and might thus involve increased tolerance. Additional functional genetic analyses confirmed the involvement of distinct signaling pathways in the C. elegans defense response: the p38-MAPK pathway acts either directly with or in parallel to elt-2 in mediating resistance to Bt679 infection but is not required for protection against Bt247. Our results further suggest that the elt-2 silencing-mediated increase in survival on Bt247 is multifactorial, influenced by the nuclear hormone receptors NHR

Published
2020

33. Additional file 1: of Comparative analysis of amplicon and metagenomic sequencing methods reveals key features in the evolution of animal metaorganisms

Author

Rausch, Philipp, Rßhlemann, Malte, Hermes, Britt, Shauni Doms, Dagan, Tal, Dierking, Katja, Domin, Hanna, Fraune, Sebastian, Frieling, Jakob, Hentschel, Ute, Femke-Anouska Heinsen, HÜppner, Marc, Jahn, Martin, Jaspers, Cornelia, Kohar Kissoyan, Langfeldt, Daniela, Ateequr Rehman, Reusch, Thorsten, Roeder, Thomas, Schmitz, Ruth, Schulenburg, Hinrich, Soluch, Ryszard, Sommer, Felix, Stukenbrock, Eva, Weiland-BräUer, Nancy, Rosenstiel, Philip, Franke, Andre, Bosch, Thomas, and Baines, John

Abstract

Supplementary Materials. (PDF 6900 kb)

Published
2019
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34. The functional repertoire contained within the native microbiota of the model nematode Caenorhabditis elegans

Author

Zimmermann, Johannes, primary, Obeng, Nancy, additional, Yang, Wentao, additional, Pees, Barbara, additional, Petersen, Carola, additional, Waschina, Silvio, additional, Kissoyan, Kohar A., additional, Aidley, Jack, additional, Hoeppner, Marc P., additional, Bunk, Boyke, additional, Spröer, Cathrin, additional, Leippe, Matthias, additional, Dierking, Katja, additional, Kaleta, Christoph, additional, and Schulenburg, Hinrich, additional

Published
2019
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35. The Inducible Response of the Nematode Caenorhabditis elegans to Members of Its Natural Microbiota Across Development and Adult Life

Author

Yang, Wentao, primary, Petersen, Carola, additional, Pees, Barbara, additional, Zimmermann, Johannes, additional, Waschina, Silvio, additional, Dirksen, Philipp, additional, Rosenstiel, Philip, additional, Tholey, Andreas, additional, Leippe, Matthias, additional, Dierking, Katja, additional, Kaleta, Christoph, additional, and Schulenburg, Hinrich, additional

Published
2019
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36. Comparative analysis of amplicon and metagenomic sequencing methods reveals key features in the evolution of animal metaorganisms

Author

Rausch, Philipp, primary, Rühlemann, Malte, additional, Hermes, Britt, additional, Doms, Shauni, additional, Dagan, Tal, additional, Dierking, Katja, additional, Domin, Hanna, additional, Fraune, Sebastian, additional, Frieling, Jakob von, additional, Humeida, Ute Henschel, additional, Heinsen, Femke-Anouska, additional, Höppner, Marc, additional, Jahn, Martin, additional, Jaspers, Cornelia, additional, Kissoyan, Kohar Annie B., additional, Langfeldt, Daniela, additional, Rehman, Ateeqr, additional, Reusch, Thorsten B. H., additional, Röder, Thomas, additional, Schmitz, Ruth A., additional, Schulenburg, Hinrich, additional, Soluch, Ryszard, additional, Sommer, Felix, additional, Stukenbrock, Eva, additional, Weiland-Bräuer, Nancy, additional, Rosenstiel, Philip, additional, Franke, Andre, additional, Bosch, Thomas, additional, and Baines, John F., additional

Published
2019
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37. The functional repertoire encoded within the native microbiome of the model nematodeCaenorhabditis elegans

Author

Zimmermann, Johannes, primary, Obeng, Nancy, additional, Yang, Wentao, additional, Pees, Barbara, additional, Petersen, Carola, additional, Waschina, Silvio, additional, Kissoyan, Kohar Annie, additional, Aidley, Jack, additional, Hoeppner, Marc P., additional, Bunk, Boyke, additional, Spröer, Cathrin, additional, Leippe, Matthias, additional, Dierking, Katja, additional, Kaleta, Christoph, additional, and Schulenburg, Hinrich, additional

Published
2019
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39. Additional file 13: of Contrasting invertebrate immune defense behaviors caused by a single gene, the Caenorhabditis elegans neuropeptide receptor gene npr-1

Author

Nakad, Rania, L. Snoek, Wentao Yang, Ellendt, Sunna, Schneider, Franziska, Mohr, Timm, RĂśsingh, Lone, Masche, Anna, Rosenstiel, Philip, Dierking, Katja, Kammenga, Jan, and Schulenburg, Hinrich

Subjects
fungi, biochemical phenomena, metabolism, and nutrition, bacterial infections and mycoses
Abstract

Table on the statistical results for the comparison of C. elegans survival rate on P. aeruginosa PA14 versus the control E. coli OP50. (PDF 74 kb)

Published
2016
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40. Additional file 6: of Contrasting invertebrate immune defense behaviors caused by a single gene, the Caenorhabditis elegans neuropeptide receptor gene npr-1

Author

Nakad, Rania, L. Snoek, Wentao Yang, Ellendt, Sunna, Schneider, Franziska, Mohr, Timm, RĂśsingh, Lone, Masche, Anna, Rosenstiel, Philip, Dierking, Katja, Kammenga, Jan, and Schulenburg, Hinrich

Abstract

Table on the statistical results for the comparison of the N2 and CB4856 leaving behavior with that of the mutant strains towards B. thuringiensis and E. coli. (PDF 96 kb)

Published
2016
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41. Additional file 8: of Contrasting invertebrate immune defense behaviors caused by a single gene, the Caenorhabditis elegans neuropeptide receptor gene npr-1

Author

Nakad, Rania, L. Snoek, Wentao Yang, Ellendt, Sunna, Schneider, Franziska, Mohr, Timm, RĂśsingh, Lone, Masche, Anna, Rosenstiel, Philip, Dierking, Katja, Kammenga, Jan, and Schulenburg, Hinrich

Abstract

Table on the statistical results for the pairwise comparison of survival of the C. elegans strains on nematocidal B. thuringiensis. (PDF 78 kb)

Published
2016
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42. Additional file 4: of Contrasting invertebrate immune defense behaviors caused by a single gene, the Caenorhabditis elegans neuropeptide receptor gene npr-1

Author

Nakad, Rania, L. Snoek, Wentao Yang, Ellendt, Sunna, Schneider, Franziska, Mohr, Timm, RĂśsingh, Lone, Masche, Anna, Rosenstiel, Philip, Dierking, Katja, Kammenga, Jan, and Schulenburg, Hinrich

Subjects
fungi
Abstract

Table on the statistical results for the pairwise comparisons of the leaving response on the E.coli OP50 control versus the B. thuringiensis strains. (PDF 87 kb)

Published
2016
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43. Additional file 7: of Contrasting invertebrate immune defense behaviors caused by a single gene, the Caenorhabditis elegans neuropeptide receptor gene npr-1

Author

Nakad, Rania, L. Snoek, Wentao Yang, Ellendt, Sunna, Schneider, Franziska, Mohr, Timm, RĂśsingh, Lone, Masche, Anna, Rosenstiel, Philip, Dierking, Katja, Kammenga, Jan, and Schulenburg, Hinrich

Abstract

Table on the statistical results for the separate comparison between C. elegans N2 and CB4856 survival on nematocidal B. thuringiensis. (PDF 74 kb)

Published
2016
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44. Contrasting invertebrate immune defense behaviors caused by a single gene, the Caenorhabditis elegans neuropeptide receptor gene npr-1

Author

Nakad, Rania, Snoek, L Basten, Yang, Wentao, Ellendt, Sunna, Schneider, Franziska, Mohr, Timm G, Rösingh, Lone, Masche, Anna C, Rosenstiel, Philip C, Dierking, Katja, Kammenga, Jan E, Schulenburg, Hinrich, Nakad, Rania, Snoek, L Basten, Yang, Wentao, Ellendt, Sunna, Schneider, Franziska, Mohr, Timm G, Rösingh, Lone, Masche, Anna C, Rosenstiel, Philip C, Dierking, Katja, Kammenga, Jan E, and Schulenburg, Hinrich

Published
2016

45. Contrasting invertebrate immune defense behaviors caused by a single gene, the Caenorhabditis elegans neuropeptide receptor gene npr-1

Author

Nakad, Rania, primary, Snoek, L. Basten, additional, Yang, Wentao, additional, Ellendt, Sunna, additional, Schneider, Franziska, additional, Mohr, Timm G., additional, Rösingh, Lone, additional, Masche, Anna C., additional, Rosenstiel, Philip C., additional, Dierking, Katja, additional, Kammenga, Jan E., additional, and Schulenburg, Hinrich, additional

Published
2016
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47. High Innate Immune Specificity through Diversified C-Type Lectin-Like Domain Proteins in Invertebrates

Author

Pees, Barbara, Yang, Wentao, Zárate-Potes, Alejandra, Schulenburg, Hinrich, and Dierking, Katja

Abstract

A key question in current immunity research is how the innate immune system can generate high levels of specificity. Evidence is accumulating that invertebrates, which exclusively rely on innate defense mechanisms, can differentiate between pathogens on the species and even strain level. In this review, we identify and discuss the particular potential of C-type lectin-like domain (CTLD) proteins to generate high immune specificity. Whilst several CTLD proteins are known to act as pattern recognition receptors in the vertebrate innate immune system, the exact role of CTLD proteins in invertebrate immunity is much less understood. We show that CTLD genes are highly abundant in most metazoan genomes and summarize the current state of knowledge on CTLD protein function in insect, crustacean and nematode immune systems. We then demonstrate extreme CTLD gene diversification in the genomes of Caenorhabditis nematodes and provide an update of data from CTLD gene function studies in C. elegans, which indicate that the diversity of CTLD genes could contribute to immune specificity. In spite of recent achievements, the exact functions of the diversified invertebrate CTLD genes are still largely unknown. Our review therefore specifically discusses promising research approaches to rectify this knowledge gap.

Published
2024
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50. The Janthinobacterium sp. HH01 genome encodes a homologue of the V. cholerae CqsA and L. pneumophila LqsA autoinducer synthases

Author

Hornung, Claudia, Poehlein, Anja, Haack, Frederike Svenja, Schmidt, Martina, Dierking, Katja, Pohlen, Andrea, Schulenburg, Hinrich, Blokesch, Melanie, Plener, Laure, Jung, Kirsten, Bonge, Andreas, Krohn-Molt, Ines, Utpatel, Christian, Timmermann, Gabriele, Spieck, Eva, Pommerening-Röser, Andreas, Bode, Edna, Bode, Helge Björn, Daniel, Rolf, Schmeißer, Christel, Streit, Wolfgang R., Hornung, Claudia, Poehlein, Anja, Haack, Frederike Svenja, Schmidt, Martina, Dierking, Katja, Pohlen, Andrea, Schulenburg, Hinrich, Blokesch, Melanie, Plener, Laure, Jung, Kirsten, Bonge, Andreas, Krohn-Molt, Ines, Utpatel, Christian, Timmermann, Gabriele, Spieck, Eva, Pommerening-Röser, Andreas, Bode, Edna, Bode, Helge Björn, Daniel, Rolf, Schmeißer, Christel, and Streit, Wolfgang R.

Abstract

Janthinobacteria commonly form biofilms on eukaryotic hosts and are known to synthesize antibacterial and antifungal compounds. Janthinobacterium sp. HH01 was recently isolated from an aquatic environment and its genome sequence was established. The genome consists of a single chromosome and reveals a size of 7.10 Mb, being the largest janthinobacterial genome so far known. Approximately 80% of the 5,980 coding sequences (CDSs) present in the HH01 genome could be assigned putative functions. The genome encodes a wealth of secretory functions and several large clusters for polyketide biosynthesis. HH01 also encodes a remarkable number of proteins involved in resistance to drugs or heavy metals. Interestingly, the genome of HH01 apparently lacks the N-acylhomoserine lactone (AHL)-dependent signaling system and the AI-2-dependent quorum sensing regulatory circuit. Instead it encodes a homologue of the Legionella- and Vibrio-like autoinducer (lqsA/cqsA) synthase gene which we designated jqsA. The jqsA gene is linked to a cognate sensor kinase (jqsS) which is flanked by the response regulator jqsR. Here we show that a jqsA deletion has strong impact on the violacein biosynthesis in Janthinobacterium sp. HH01 and that a jqsA deletion mutant can be functionally complemented with the V. cholerae cqsA and the L. pneumophila lqsA genes.

Published
2013

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