Your search keyword '"René Benndorf"' showing total 12 results

1. Polyhalogenation of Isoflavonoids by the Termite-Associated Actinomadura sp. RB99

Author

Mi-Jeong Ahn, Seoung Rak Lee, Minji Park, Anne-Kristin Kaster, Won Hee Jung, Felix Schalk, Ki-Hyun Kim, Jan W Schwitalla, Christine Beemelmanns, Z. Wilhelm de Beer, John Vollmers, and René Benndorf

Subjects

Pharmacology, biology, 010405 organic chemistry, Organic Chemistry, Daidzein, Actinomadura sp, food and beverages, Pharmaceutical Science, Genistein, Isoflavones, Tandem mass spectrometry, Antimicrobial, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, Complementary and alternative medicine, chemistry, Drug Discovery, Actinomadura species, Molecular Medicine, Food science, Bacteria

Abstract

Based on high-resolution tandem mass spectrometry (HR-MS2) and global natural products social molecular networking (GNPS), we found that plant-derived daidzein and genistein derivatives are polyhalogenated by termite-associated Actinomadura species RB99. MS-guided purification from extracts of bacteria grown under optimized conditions led to the isolation of eight polychlorinated isoflavones, including six unreported derivatives, and seven novel polybrominated derivatives, two of which showed antimicrobial activity.

Published

2020

2. Gene Cluster Activation in a Bacterial Symbiont Leads to Halogenated Angucyclic Maduralactomycins and Spirocyclic Actinospirols

Author

Christoph Steinbeck, Helmar Görls, Martin Baunach, Z. Wilhelm de Beer, Huijuan Guo, Lars Regestein, Jan W Schwitalla, Christine Beemelmanns, and René Benndorf

Subjects

Biological Products, Halogenation, ATP synthase, biology, Stereochemistry, Organic Chemistry, Actinomadura sp, Actinomadura, Molecular Conformation, Biochemistry, Polyketide, chemistry.chemical_compound, Biosynthesis, chemistry, Multigene Family, Gene cluster, Gene expression, biology.protein, Genome mining, Physical and Theoretical Chemistry, Polyketide Synthases, Gene

Abstract

Growth from spores activated a biosynthetic gene cluster in Actinomadura sp. RB29, resulting in the identification of two novel groups of halogenated polyketide natural products, named maduralactomycins and actinospirols. The unique tetracyclic and spirocyclic structures were assigned based on a combination of NMR analysis, chemoinformatic calculations, X-ray crystallography, and 13C labeling studies. On the basis of HRMS2 data, genome mining, and gene expression studies, we propose an underlying noncanonical angucycline biosynthesis and extensive post-polyketide synthase (PKS) oxidative modifications.

Published

2020

3. Comparative Genomic and Metabolic Analysis of

Author

Soohyun, Um, Huijuan, Guo, Sirinthra, Thiengmag, René, Benndorf, Robert, Murphy, Maja, Rischer, Daniel, Braga, Michael, Poulsen, Z Wilhelm, de Beer, Gerald, Lackner, and Christine, Beemelmanns

Subjects

Antifungal Agents, Bacteria, Multigene Family, Fungi, Metabolomics, Genomics, Macrolides, Microbial Sensitivity Tests, Polyketide Synthases, Streptomyces, Anti-Bacterial Agents

Abstract

Morphotype switches frequently occur in Actinobacteria and are often associated with disparate natural product production. Here, we report on differences in the secondary metabolomes of two morphotypes of a

Published

2021

4. Polyhalogenation of Isoflavonoids by the Termite-Associated

Author

Seoung, Rak Lee, Felix, Schalk, Jan W, Schwitalla, René, Benndorf, John, Vollmers, Anne-Kristin, Kaster, Z Wilhelm, de Beer, Minji, Park, Mi-Jeong, Ahn, Won Hee, Jung, Christine, Beemelmanns, and Ki Hyun, Kim

Subjects

Magnetic Resonance Spectroscopy, Bacteria, Halogenation, Molecular Structure, Actinomadura, Animals, Isoptera, Microbial Sensitivity Tests, Genistein, Isoflavones, Mass Spectrometry, Metabolic Networks and Pathways, Anti-Bacterial Agents

Abstract

Based on high-resolution tandem mass spectrometry (HR-MS

Published

2020

5. Wie sich Bakterien schützen

Author

Maja Rischer, Christine Beemelmanns, René Benndorf, and Daniel Leichnitz

Subjects

General Chemical Engineering, General Chemistry

Published

2017

6. Frontispiece: Expanding the Rubterolone Family: Intrinsic Reactivity and Directed Diversification of PKS-derived Pyrans

Author

Stefanie König, Gundela Peschel, Marcel Kaiser, Christoph Steinbeck, Daniel Leichnitz, Oliver Werz, Huijuan Guo, Patrick Berthel, René Benndorf, Michael Poulsen, Christiane Weigel, and Christine Beemelmanns

Subjects

Evolutionary biology, Chemistry, Organic Chemistry, Reactivity (chemistry), General Chemistry, Diversification (marketing strategy), Catalysis

Published

2018

7. In situ protein-SIP highlightsBurkholderiaceaeas key players degrading toluene by para ring hydroxylation in a constructed wetland model

Author

Dietmar H. Pieper, Martin von Bergen, Vanessa Lünsmann, Márcia Duarte, Anja Taubert, Jochen A. Müller, René Benndorf, Hermann J. Heipieper, Nico Jehmlich, Paula M. Martínez-Lavanchy, Uwe Kappelmeyer, and Lorenz Adrian

Subjects

0301 basic medicine, Rhizosphere, Burkholderiaceae, biology, Ralstonia pickettii, 030106 microbiology, Stable-isotope probing, food and beverages, biology.organism_classification, Microbiology, Comamonadaceae, 03 medical and health sciences, Burkholderiales, 030104 developmental biology, Botany, Microbial biodegradation, Soil microbiology, Ecology, Evolution, Behavior and Systematics

Abstract

In constructed wetlands, organic pollutants are mainly degraded via microbial processes. Helophytes, plants that are commonly used in these systems, provide oxygen and root exudates to the rhizosphere, stimulating microbial degradation. While the treatment performance of constructed wetlands can be remarkable, a mechanistic understanding of microbial degradation processes in the rhizosphere is still limited. We investigated microbial toluene removal in a constructed wetland model system combining 16S rRNA gene sequencing, metaproteomics and (13) C-toluene in situ protein-based stable isotope probing (protein-SIP). The rhizospheric bacterial community was dominated by Burkholderiales and Rhizobiales, each contributing about 20% to total taxon abundance. Protein-SIP data revealed that the members of Burkholderiaceae, the proteins of which showed about 73% of (13) C-incorporation, were the main degraders of toluene in the planted system, while the members of Comamonadaceae were involved to a lesser extent in degradation (about 64% (13) C-incorporation). Among the Burkholderiaceae, one of the key players of toluene degradation could be assigned to Ralstonia pickettii. We observed that the main pathway of toluene degradation occurred via two subsequent monooxygenations of the aromatic ring. Our study provides a suitable approach to assess the key processes and microbes that are involved in the degradation of organic pollutants in complex rhizospheric ecosystems.

Published

2016

8. Isolation, Biosynthesis and Chemical Modifications of Rubterolones A-F: Rare Tropolone Alkaloids from Actinomadura sp. 5-2

Author

Christine Beemelmanns, Christiane Weigel, Daniel Leichnitz, John Vollmers, Anne-Kristin Kaster, Jonathan L. Klassen, Matthias Steinacker, René Benndorf, Huijuan Guo, Helmar Görls, Z. Wilhelm de Beer, Michael Poulsen, and Hans-Martin Dahse

Subjects

0301 basic medicine, Magnetic Resonance Spectroscopy, Stereochemistry, Molecular Conformation, Isoptera, Crystallography, X-Ray, Catalysis, DNA sequencing, Mass Spectrometry, Tropolone, 03 medical and health sciences, chemistry.chemical_compound, Alkaloids, Biosynthesis, Phylogenetics, Actinomycetales, Animals, Chromatography, High Pressure Liquid, Phylogeny, Whole genome sequencing, biology, Whole Genome Sequencing, Chemistry, Organic Chemistry, General Chemistry, Nuclear magnetic resonance spectroscopy, Isolation (microbiology), biology.organism_classification, Biosynthetic Pathways, Intestines, 030104 developmental biology, Biochemistry, Multigene Family

Abstract

The discovery of six new, highly substituted tropolone alkaloids, rubterolones A-F, from Actinomadura sp. 5-2, isolated from the gut of the fungus-growing termite Macrotermes natalensis is reported. Rubterolones were identified by using fungus-bacteria challenge assays and a HRMS-based dereplication strategy, and characterised by NMR and HRMS analyses and by X-ray crystallography. Feeding experiments and subsequent chemical derivatisation led to a first library of rubterolone derivatives (A-L). Genome sequencing and comparative analyses revealed their putative biosynthetic pathway, which was supported by feeding experiments. This study highlights how gut microbes can present a prolific source of secondary metabolites.

Published

2017

9. Termisoflavones A-C, Isoflavonoid Glycosides from Termite-Associated Streptomyces sp. RB1

Author

Hee Rae Kang, Ki-Hyun Kim, Christine Beemelmanns, Dahae Lee, René Benndorf, Won Hee Jung, and Ki Sung Kang

Subjects

0301 basic medicine, Stereochemistry, Cuticle, Pharmaceutical Science, Isoptera, Microbial Sensitivity Tests, Kidney, 01 natural sciences, Streptomyces, Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, South Africa, Isoflavonoid, Drug Discovery, Candida albicans, Animals, Glycosides, Sugar, Nuclear Magnetic Resonance, Biomolecular, Pharmacology, chemistry.chemical_classification, biology, Molecular Structure, 010405 organic chemistry, Organic Chemistry, Glycoside, Isoflavones, Antimicrobial, biology.organism_classification, 0104 chemical sciences, Acetylcysteine, Anti-Bacterial Agents, Cryptococcus, 030104 developmental biology, Complementary and alternative medicine, Biochemistry, chemistry, Molecular Medicine, Cisplatin, Two-dimensional nuclear magnetic resonance spectroscopy

Abstract

Three new isoflavonoid glycosides, termisoflavones A–C (1–3), and eight isoflavonoids (4–11) were isolated from termite-associated Streptomyces sp. RB1 recovered from the cuticle of the South African termite, Macrotermes natalensis. The structures of new compounds were determined by spectroscopic methods including 1D and 2D NMR and HR-MS analysis, as well as comparison of their NMR data with those of related isoflavonoid glycoside derivatives. The absolute configurations of the sugar moieties were clarified by chemical reactions. None of the isolates (1–11) displayed antifungal or antimicrobial activities (MICs > 100 μg/mL), whereas compounds 6 and 11 ameliorated cisplatin-induced kidney cell damage to 80% of the control value at a cisplatin dose of 25 μM.

Published

2016

10. Natural Products from Actinobacteria Associated with Fungus-Growing Termites

Author

Haofu Hu, Michael Poulsen, Michelle Küfner, Christiane Weigel, Karin Martin, René Benndorf, Z. Wilhelm de Beer, María García-Altares, Huijuan Guo, Elisabeth Sommerwerk, and Christine Beemelmanns

Subjects

0301 basic medicine, Microbiology (medical), Chemical ecology, Fungus, Biology, Biochemistry, Microbiology, Article, drug discovery, Actinobacteria, 03 medical and health sciences, chemistry.chemical_compound, Symbiosis, Botany, Pharmacology (medical), General Pharmacology, Toxicology and Pharmaceutics, Axenic, Bioprospecting, Natural product, Drug discovery, secondary metabolites, Secondary metabolites, lcsh:RM1-950, fungi, chemical ecology, actinobacteria, Antimicrobial, biology.organism_classification, symbiosis, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Infectious Diseases, chemistry

Abstract

The chemical analysis of insect-associated Actinobacteria has attracted the interest of natural product chemists in the past years as bacterial-produced metabolites are sought to be crucial for sustaining and protecting the insect host. The objective of our study was to evaluate the phylogeny and bioprospecting of Actinobacteria associated with fungus-growing termites. We characterized 97 Actinobacteria from the gut, exoskeleton, and fungus garden (comb) of the fungus-growing termite Macrotermes natalensis and used two different bioassays to assess their general antimicrobial activity. We selected two strains for chemical analysis and investigated the culture broth of the axenic strains and fungus-actinobacterium co-cultures. From these studies, we identified the previously-reported PKS-derived barceloneic acid A and the PKS-derived rubterolones. Analysis of culture broth yielded a new dichlorinated diketopiperazine derivative and two new tetracyclic lanthipeptides, named rubrominins A and B. The discussed natural products highlight that insect-associated Actinobacteria are highly prolific natural product producers yielding important chemical scaffolds urgently needed for future drug development programs.

Published

2018

11. In situ protein-SIP highlights Burkholderiaceae as key players degrading toluene by para ring hydroxylation in a constructed wetland model

Author

Vanessa, Lünsmann, Uwe, Kappelmeyer, René, Benndorf, Paula M, Martinez-Lavanchy, Anja, Taubert, Lorenz, Adrian, Marcia, Duarte, Dietmar H, Pieper, Martin, von Bergen, Jochen A, Müller, Hermann J, Heipieper, and Nico, Jehmlich

Subjects

Comamonadaceae, Biodegradation, Environmental, Burkholderiaceae, RNA, Ribosomal, 16S, Wetlands, Rhizosphere, Hydroxylation, Soil Microbiology, Toluene

Abstract

In constructed wetlands, organic pollutants are mainly degraded via microbial processes. Helophytes, plants that are commonly used in these systems, provide oxygen and root exudates to the rhizosphere, stimulating microbial degradation. While the treatment performance of constructed wetlands can be remarkable, a mechanistic understanding of microbial degradation processes in the rhizosphere is still limited. We investigated microbial toluene removal in a constructed wetland model system combining 16S rRNA gene sequencing, metaproteomics and (13) C-toluene in situ protein-based stable isotope probing (protein-SIP). The rhizospheric bacterial community was dominated by Burkholderiales and Rhizobiales, each contributing about 20% to total taxon abundance. Protein-SIP data revealed that the members of Burkholderiaceae, the proteins of which showed about 73% of (13) C-incorporation, were the main degraders of toluene in the planted system, while the members of Comamonadaceae were involved to a lesser extent in degradation (about 64% (13) C-incorporation). Among the Burkholderiaceae, one of the key players of toluene degradation could be assigned to Ralstonia pickettii. We observed that the main pathway of toluene degradation occurred via two subsequent monooxygenations of the aromatic ring. Our study provides a suitable approach to assess the key processes and microbes that are involved in the degradation of organic pollutants in complex rhizospheric ecosystems.

Published

2015

12. Parastomal hernias

Author

René Benndorf

Subjects

Reoperation, Ileostomy, Colostomy, Humans, Surgery, Hernia, Ventral

Abstract

Parastomal hernia is a common complication of stoma formation, having an incidence of about 10%. As with many other ostomy-associated complications, most parastomal hernias are related to inadequate pre-operative planning or technical errors. Most of these hernias should be managed conservatively; only 10-20% of patients eventually require operative intervention. When an operation is indicated, relocating the stoma generally yields better long-term results than does an attempt at local repair of the hernia.

Published

1989