Author: "Bode, Helge Björn" - Searchworks@Jio Institute Digital Library Search Results

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1. Transertion and cell geometry organize the Escherichia coli nucleoid during rapid growth

Author: Spahn, Christoph, primary, Middlemiss, Stuart, additional, Gómez-de-Mariscal, Estibaliz, additional, Henriques, Ricardo, additional, Bode, Helge Björn, additional, Holden, Seamus, additional, and Heilemann, Mike, additional
Published: 2023
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2. Guidelines for optimizing type S non-ribosomal peptide synthetases

Author: Abbood, Nadya, Effert, Juliana, Bozhüyük, Kenan A. J., Bode, Helge Björn, Abbood, Nadya, Effert, Juliana, Bozhüyük, Kenan A. J., and Bode, Helge Björn
Abstract: Bacterial biosynthetic assembly lines, such as non-ribosomal peptide synthetases (NRPS) and polyketide synthases, are often subject of synthetic biology – because they produce a variety of natural products invaluable for modern pharmacotherapy. Acquiring the ability to engineer these biosynthetic assembly lines allows the production of artificial non-ribosomal peptides (NRP), polyketides, and hybrids thereof with new or improved properties. However, traditional bioengineering approaches have suffered for decades from their very limited applicability and, unlike combinatorial chemistry, are stigmatized as inefficient because they cannot be linked to the high-throughput screening platforms of the pharmaceutical industry. Although combinatorial chemistry can generate new molecules cheaper, faster, and in greater numbers than traditional natural product discovery and bioengineering approaches, it does not meet current medical needs because it covers only a limited biologically relevant chemical space. Hence, methods for high-throughput generation of new natural product-like compound libraries could provide a new avenue towards the identification of new lead compounds. To this end, prior to this work, we introduced an artificial synthetic NRPS type, referred to as type S NRPS, to provide a first-of-its-kind bicombinatorial approach to parallelized high-throughput NRP library generation. However, a bottleneck of these first two generations of type S NRPS was a significant drop in production yields. To address this issue, we applied an iterative optimization process that enabled titer increases of up to 55-fold compared to the non-optimized equivalents, restoring them to wild-type levels and beyond.
Published: 2023

3. Evolution inspired engineering of megasynthetases

Author: Bozhüyük, Kenan A. J., Präve, Leonard, Kegler, Carsten, Kaiser, Sebastian, Shi, Yan-Ni, Kuttenlochner, Wolfgang, Schenk, Leonie, Mohiuddin, T. M., Groll, Michael, Hochberg, Georg K. A., Bode, Helge Björn, Bozhüyük, Kenan A. J., Präve, Leonard, Kegler, Carsten, Kaiser, Sebastian, Shi, Yan-Ni, Kuttenlochner, Wolfgang, Schenk, Leonie, Mohiuddin, T. M., Groll, Michael, Hochberg, Georg K. A., and Bode, Helge Björn
Abstract: Many clinically used drugs are derived from or inspired by bacterial natural products that often are biosynthesised via non-ribosomal peptide synthetases (NRPS), giant megasynthases that activate and join individual amino acids in an assembly line fashion. Since NRPS are not limited to the incorporation of the 20 proteinogenic amino acids, their efficient manipulation would allow the biotechnological generation of complex peptides including linear, cyclic and further modified natural product analogues, e.g. to optimise natural product leads. Here we describe a detailed phylogenetic analysis of several bacterial NRPS that led to the identification of a new recombination breakpoint within the thiolation (T) domain that is important for natural NRPS evolution. From this, an evolution-inspired eXchange Unit between T domains (XUT) approach was developed which allows the assembly of NRPS fragments over a broad range of GC contents, protein similarities, and extender unit specificities, as demonstrated for the specific production of a proteasome inhibitor designed and assembled from five different NRPS fragments.
Published: 2022

4. Antiprotozoal activity of different Xenorhabdus and Photorhabdus bacterial secondary metabolites and identification of bioactive compounds using the easyPACId approach

Author: Gülşen, Şebnem Hazal, Tileklioglu, Evren, Bode, Edna, Cimen, Harun, Ertabaklar, Hatice, Uluğ, Derya, Ertuğ, Sema, Wenski, Sebastian Leonhard, Touray, Mustapha, Hazir, Canan, Bilecenoglu, Duygu Kaya, Yildiz, Ibrahim, Bode, Helge Björn, Hazir, Selcuk, Gülşen, Şebnem Hazal, Tileklioglu, Evren, Bode, Edna, Cimen, Harun, Ertabaklar, Hatice, Uluğ, Derya, Ertuğ, Sema, Wenski, Sebastian Leonhard, Touray, Mustapha, Hazir, Canan, Bilecenoglu, Duygu Kaya, Yildiz, Ibrahim, Bode, Helge Björn, and Hazir, Selcuk
Abstract: Natural products have been proven to be important starting points for the development of new drugs. Bacteria in the genera Photorhabdus and Xenorhabdus produce antimicrobial compounds as secondary metabolites to compete with other organisms. Our study is the first comprehensive study screening the anti-protozoal activity of supernatants containing secondary metabolites produced by 5 Photorhabdus and 22 Xenorhabdus species against human parasitic protozoa, Acanthamoeba castellanii, Entamoeba histolytica, Trichomonas vaginalis, Leishmania tropica and Trypanosoma cruzi, and the identification of novel bioactive antiprotozoal compounds using the easyPACId approach (easy Promoter Activated Compound Identification) method. Though not in all species, both bacterial genera produce antiprotozoal compounds effective on human pathogenic protozoa. The promoter exchange mutants revealed that antiprotozoal bioactive compounds produced by Xenorhabdus bacteria were fabclavines, xenocoumacins, xenorhabdins and PAX peptides. Among the bacteria assessed, only P. namnaoensis appears to have acquired amoebicidal property which is effective on E. histolytica trophozoites. These discovered antiprotozoal compounds might serve as starting points for the development of alternative and novel pharmaceutical agents against human parasitic protozoa in the future.
Published: 2022

5. Identification of Feldin, an antifungal polyyne from the beefsteak fungus \(\textit {Fistulina hepatica}\)

Author: Lee, Jungho (M.Sc.), Shi, Yi-Ming (Dr. rer. nat.), Grün, Peter, Gube, Matthias (Dr. rer. nat.), Feldbrügge, Michael (Prof. Dr.), Bode, Helge Björn (Prof. Dr.), and Hennicke, Florian (Dr. rer. nat.)
Abstract: Fruiting body-forming members of the Basidiomycota maintain their ecological fitness against various antagonists like ascomycetous mycoparasites. To achieve that, they produce myriads of bioactive compounds, some of which are now being used as agrochemicals or pharmaceutical lead structures. Here, we screened ethyl acetate crude extracts from cultures of thirty-five mushroom species for antifungal bioactivity, for their effect on the ascomycete \(\textit {Saccharomyces cerevisiae}\) and the basidiomycete \(\textit {Ustilago maydis}\). One extract that inhibited the growth of \(\textit {S. cerevisiae}\) much stronger than that of \(\textit {U. maydis}\) was further analyzed. For bioactive compound identification, we performed bioactivity-guided HPLC/MS fractionation. Fractions showing inhibition against \(\textit {S. cerevisiae}\) but reduced activity against \(\textit {U. maydis}\) were further analyzed. NMR-based structure elucidation from one such fraction revealed the polyyne we named feldin, which displays prominent antifungal bioactivity. Future studies with additional mushroom-derived eukaryotic toxic compounds or antifungals will show whether \(\textit {U. maydis}\) could be used as a suitable host to shortcut an otherwise laborious production of such mushroom compounds, as could recently be shown for heterologous sesquiterpene production in \(\textit {U. maydis}\).
Published: 2020

6. Identification of Feldin, an Antifungal Polyyne from the Beefsteak Fungus Fistulina hepatica

Author: Lee, Jungho, Shi, Yi-Ming, Grün, Peter, Gube, Matthias, Feldbrügge, Michael, Bode, Helge Björn, and Hennicke, Florian
Subjects: biologicals, polyacetylenes, ddc:570, polyines, lcsh:QR1-502, agaricomycetes, polyynes, lcsh:Microbiology, antifungals
Abstract: Fruiting body-forming members of the Basidiomycota maintain their ecological fitness against various antagonists like ascomycetous mycoparasites. To achieve that, they produce myriads of bioactive compounds, some of which are now being used as agrochemicals or pharmaceutical lead structures. Here, we screened ethyl acetate crude extracts from cultures of thirty-five mushroom species for antifungal bioactivity, for their effect on the ascomycete Saccharomyces cerevisiae and the basidiomycete Ustilago maydis. One extract that inhibited the growth of S. cerevisiae much stronger than that of U. maydis was further analyzed. For bioactive compound identification, we performed bioactivity-guided HPLC/MS fractionation. Fractions showing inhibition against S. cerevisiae but reduced activity against U. maydis were further analyzed. NMR-based structure elucidation from one such fraction revealed the polyyne we named feldin, which displays prominent antifungal bioactivity. Future studies with additional mushroom-derived eukaryotic toxic compounds or antifungals will show whether U. maydis could be used as a suitable host to shortcut an otherwise laborious production of such mushroom compounds, as could recently be shown for heterologous sesquiterpene production in U. maydis.
Published: 2020
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7. Artificial splitting of a non‐ribosomal peptide synthetase by inserting natural docking domains

Author: Kegler, Carsten and Bode, Helge Björn
Subjects: ddc:570, ddc:540
Abstract: The interaction in multisubunit non‐ribosomal peptide synthetases (NRPSs) is mediated by docking domains that ensure the correct subunit‐to‐subunit interaction. We introduced natural docking domains into the three‐module xefoampeptide synthetase (XfpS) to create two to three artificial NRPS XfpS subunits. The enzymatic performance of the split biosynthesis was measured by absolute quantification of the products by HPLC‐ESI‐MS. The connecting role of the docking domains was probed by deleting integral parts of them. The peptide production data was compared to soluble protein amounts of the NRPS using SDS‐PAGE. Reduced peptide synthesis was not a result of reduced soluble NRPS concentration but a consequence of the deletion of vital docking domain parts. Splitting the xefoampeptide biosynthesis polypeptide by introducing docking domains was feasible and resulted in higher amounts of product in one of the two tested split‐module cases compared to the full‐length wild‐type enzyme.
Published: 2020

8. Climate-specific biosynthetic gene clusters in populations of a lichen-forming fungus

Author: Singh, Garima, Calchera, Anjuli, Schulz, Meike, Drechsler, Moritz, Bode, Helge Björn, Schmitt, Imke, Dal Grande, Francesco, Singh, Garima, Calchera, Anjuli, Schulz, Meike, Drechsler, Moritz, Bode, Helge Björn, Schmitt, Imke, and Dal Grande, Francesco
Abstract: Natural products can contribute to abiotic stress tolerance in plants and fungi. We hypothesize that biosynthetic gene clusters (BGCs), the genomic elements that underlie natural product biosynthesis, display structured differences along elevation gradients. We analysed biosynthetic gene variation in natural populations of the lichen-forming fungus Umbilicaria pustulata. We collected a total of 600 individuals from the Mediterranean and cold-temperate climates. Population genomic analyses indicate that U. pustulata contains three clusters that are highly differentiated between the Mediterranean and cold-temperate populations. One entire cluster is exclusively present in cold-temperate populations, and a second cluster is putatively dysfunctional in all cold-temperate populations. In the third cluster variation is fixed in all cold-temperate populations due to hitchhiking. In these two clusters the presence of consistent allele frequency differences among replicate populations/gradients suggests that selection rather than drift is driving the pattern. We advocate that the landscape of fungal biosynthetic genes is shaped by both positive and hitchhiking selection. We demonstrate, for the first time, the presence of climate-associated BGCs and BGC variations in lichen-forming fungi. While the associated secondary metabolites of the candidate clusters are presently unknown, our study paves the way for targeted discovery of natural products with ecological significance.
Published: 2021

9. Synthetic zippers as an enabling tool for engineering of non-ribosomal peptide synthetases

Author: Bozhüyük, Kenan A. J., Watzel, Jonas, Abbood, Nadya, Bode, Helge Björn, Bozhüyük, Kenan A. J., Watzel, Jonas, Abbood, Nadya, and Bode, Helge Björn
Abstract: Non-ribosomal peptide synthetases (NRPSs) are the origin of a wide range of natural products, including many clinically used drugs. Efficient engineering of these often giant biosynthetic machineries to produce novel non-ribosomal peptides (NRPs) is an ongoing challenge. Here we describe a cloning and co-expression strategy to functionally combine NRPS fragments of Gram-negative and -positive origin, synthesising novel peptides at titres up to 220 mg L−1. Extending from the recently introduced definition of eXchange Units (XUs), we inserted synthetic zippers (SZs) to split single protein NRPSs into independently expressed and translated polypeptide chains. These synthetic type of NRPS (type S) enables easier access to engineering, overcomes cloning limitations, and provides a simple and rapid approach to building peptide libraries via the combination of different NRPS subunits.
Published: 2021

10. Cooperation between a T domain and a minimal C-terminal docking domain to enable specific assembly in a multiprotein NRPS

Author: Watzel, Jonas, Duchardt-Ferner, Elke, Sarawi, Sepas, Bode, Helge Björn, Wöhnert, Jens, Watzel, Jonas, Duchardt-Ferner, Elke, Sarawi, Sepas, Bode, Helge Björn, and Wöhnert, Jens
Abstract: Non-ribosomal peptide synthetases (NRPS) produce natural products from amino acid building blocks. They often consist of multiple polypeptide chains which assemble in a specific linear order via specialized N- and C-terminal docking domains (N/CDDs). Typically, docking domains function independently from other domains in NRPS assembly. Thus, docking domain replacements enable the assembly of “designer” NRPS from proteins that normally do not interact. The multiprotein “peptide-antimicrobial-Xenorhabdus” (PAX) peptide-producing PaxS NRPS is assembled from the three proteins PaxA, PaxB and PaxC. Herein, we show that the small CDD of PaxA cooperates with its preceding thiolation (T1) domain to bind the NDD of PaxB with very high affinity, establishing a structural and thermodynamical basis for this unprecedented docking interaction, and we test its functional importance in vivo in a truncated PaxS assembly line. Similar docking interactions are apparently present in other NRPS systems.
Published: 2021

11. NMR resonance assignments for a docking domain pair with an attached thiolation domain from the PAX peptide-producing NRPS from Xenorhabdus cabanillasii

Author: Watzel, Jonas, Sarawi, Sepas, Duchardt-Ferner, Elke, Bode, Helge Björn, Wöhnert, Jens, Watzel, Jonas, Sarawi, Sepas, Duchardt-Ferner, Elke, Bode, Helge Björn, and Wöhnert, Jens
Abstract: Non-ribosomal peptide synthetases (NRPSs) are large multienzyme machineries. They synthesize numerous important natural products starting from amino acids. For peptide synthesis functionally specialized NRPS modules interact in a defined manner. Individual modules are either located on a single or on multiple different polypeptide chains. The “peptide-antimicrobial-Xenorhabdus” (PAX) peptide producing NRPS PaxS from Xenorhabdus bacteria consists of the three proteins PaxA, PaxB and PaxC. Different docking domains (DDs) located at the N-termini of PaxB and PaxC and at the C-termini of PaxA and BaxB mediate specific non-covalent interactions between them. The N-terminal docking domains precede condensation domains while the C-terminal docking domains follow thiolation domains. The binding specificity of individual DDs is important for the correct assembly of multi-protein NRPS systems. In many multi-protein NRPS systems the docking domains are sufficient to mediate the necessary interactions between individual protein chains. However, it remains unclear if this is a general feature for all types of structurally different docking domains or if the neighboring domains in some cases support the function of the docking domains. Here, we report the 1H, 13C and 15 N NMR resonance assignments for a C-terminal di-domain construct containing a thiolation (T) domain followed by a C-terminal docking domain (CDD) from PaxA and for its binding partner – the N-terminal docking domain (NDD) from PaxB from the Gram-negative entomopathogenic bacterium Xenorhabdus cabanillasii JM26 in their free states and for a 1:1 complex formed by the two proteins. These NMR resonance assignments will facilitate further structural and dynamic studies of this protein complex.
Published: 2021

12. Towards the sustainable discovery and development of new antibiotics

Author: Miethke, Marcus, Pieroni, Marco, Weber, Karl Tilmann, Brönstrup, Mark, Hammann, Peter, Halby, Ludovic, Arimondo, Paola B., Glaser, Philippe, Aigle, Bertrand, Bode, Helge Björn, Moreira, Rui, Li, Yanyan, Luzhetskyy, Andriy, Medema, Marnix H., Pernodet, Jean-Luc, Stadler, Marc, Tormo, José Rubén, Genilloud, Olga, Truman, Andrew W., Weissman, Kira J., Takano, Eriko, Sabatini, Stefano, Stegmann, Evi, Brötz, Heike, Wohlleben, Wolfgang, Seemann, Myriam, Empting, Martin, Hirsch, Anna K. H., Loretz, Brigitta, Lehr, Claus-Michael, Titz, Alexander, Herrmann, Jennifer, Jäger, Timo, Alt, Silke, Hesterkamp, Thomas, Winterhalter, Mathias, Schiefer, Andrea, Pfarr, Kenneth, Hoerauf, Achim, Graz, Heather, Graz, Michael, Lindvall, Mika, Ramurthy, Savithri, Karlén, Anders, Dongen, Maarten van, Petkovic, Hrvoje, Keller, Andreas, Peyrane, Frédéric, Donadio, Stefano, Fraisse, Laurent, Piddock, Laura J. V., Gilbert, Ian H., Moser, Heinz E., Müller, Rolf, Miethke, Marcus, Pieroni, Marco, Weber, Karl Tilmann, Brönstrup, Mark, Hammann, Peter, Halby, Ludovic, Arimondo, Paola B., Glaser, Philippe, Aigle, Bertrand, Bode, Helge Björn, Moreira, Rui, Li, Yanyan, Luzhetskyy, Andriy, Medema, Marnix H., Pernodet, Jean-Luc, Stadler, Marc, Tormo, José Rubén, Genilloud, Olga, Truman, Andrew W., Weissman, Kira J., Takano, Eriko, Sabatini, Stefano, Stegmann, Evi, Brötz, Heike, Wohlleben, Wolfgang, Seemann, Myriam, Empting, Martin, Hirsch, Anna K. H., Loretz, Brigitta, Lehr, Claus-Michael, Titz, Alexander, Herrmann, Jennifer, Jäger, Timo, Alt, Silke, Hesterkamp, Thomas, Winterhalter, Mathias, Schiefer, Andrea, Pfarr, Kenneth, Hoerauf, Achim, Graz, Heather, Graz, Michael, Lindvall, Mika, Ramurthy, Savithri, Karlén, Anders, Dongen, Maarten van, Petkovic, Hrvoje, Keller, Andreas, Peyrane, Frédéric, Donadio, Stefano, Fraisse, Laurent, Piddock, Laura J. V., Gilbert, Ian H., Moser, Heinz E., and Müller, Rolf
Abstract: An ever-increasing demand for novel antimicrobials to treat life-threatening infections caused by the global spread of multidrug-resistant bacterial pathogens stands in stark contrast to the current level of investment in their development, particularly in the fields of natural-product-derived and synthetic small molecules. New agents displaying innovative chemistry and modes of action are desperately needed worldwide to tackle the public health menace posed by antimicrobial resistance. Here, our consortium presents a strategic blueprint to substantially improve our ability to discover and develop new antibiotics. We propose both short-term and long-term solutions to overcome the most urgent limitations in the various sectors of research and funding, aiming to bridge the gap between academic, industrial and political stakeholders, and to unite interdisciplinary expertise in order to efficiently fuel the translational pipeline for the benefit of future generations.
Published: 2021

13. Activation, structure, biosynthesis and bioactivity of glidobactin-like proteasome inhibitors from Photorhabdus laumondii

Author: Zhao, Lei, Le Chapelain, Camille, Brachmann, Alexander Oliver, Kaiser, Marcel, Groll, Michael, Bode, Helge Björn, Zhao, Lei, Le Chapelain, Camille, Brachmann, Alexander Oliver, Kaiser, Marcel, Groll, Michael, and Bode, Helge Björn
Abstract: The glidobactin-like natural products (GLNPs) glidobactin A and cepafungin I have been reported to be potent proteasome inhibitors and are regarded as promising candidates for anticancer drug development. Their biosynthetic gene cluster (BGC) plu1881–1877 is present in entomopathogenic Photorhabdus laumondii but silent under standard laboratory conditions. Here we show the largest subset of GLNPs, which are produced and identified after activation of the silent BGC in the native host and following heterologous expression of the BGC in Escherichia coli. Their chemical diversity results from a relaxed substrate specificity and flexible product release in the assembly line of GLNPs. Crystal structure analysis of the yeast proteasome in complex with new GLNPs suggests that the degree of unsaturation and the length of the aliphatic tail are critical for their bioactivity. The results in this study provide the basis to engineer the BGC for the generation of new GLNPs and to optimize these natural products resulting in potential drugs for cancer therapy.
Published: 2021

14. Synthetic zippers as an enabling tool for engineering of non-ribosomal peptide synthetases

Author: Bozhüyük, Kenan A. J., Watzel, Jonas, Abbood, Nadya, Bode, Helge Björn, Bozhüyük, Kenan A. J., Watzel, Jonas, Abbood, Nadya, and Bode, Helge Björn
Abstract: Non-ribosomal peptide synthetases (NRPSs) are the origin of a wide range of natural products, including many clinically used drugs. Engineering of these often giant biosynthetic machineries to produce novel non-ribosomal peptides (NRPs) at high titre is an ongoing challenge. Here we describe a strategy to functionally combine NRPS fragments of Gram-negative and -positive origin, synthesising novel peptides at titres up to 290 mg l-1. Extending from the recently introduced definition of eXchange Units (XUs), we inserted synthetic zippers (SZs) to split single protein NRPSs into up to three independently expressed and translated polypeptide chains. These synthetic type of NRPS (type S) enables easier access to engineering, overcomes cloning limitations, and provides a simple and rapid approach to building peptide libraries via the combination of different NRPS subunits.
Published: 2020

15. Nonribosomal peptides produced by minimal and engineered synthetases with terminal reductase domains

Author: Tietze, Andreas, Shi, Yan‐Ni, Kronenwerth, Max, Bode, Helge Björn, Tietze, Andreas, Shi, Yan‐Ni, Kronenwerth, Max, and Bode, Helge Björn
Abstract: Nonribosomal peptide synthetases (NRPSs) use terminal reductase domains for 2‐electron reduction of the enzyme‐bound thioester releasing the generated peptides as C‐terminal aldehydes. Herein, we reveal the biosynthesis of a pyrazine that originates from an aldehyde‐generating minimal NRPS termed ATRed in entomopathogenic Xenorhabdus indica. Reductase domains were also investigated in terms of NRPS engineering and, although no general applicable approach was deduced, we show that they can indeed be used for the production of similar natural and unnatural pyrazinones.
Published: 2020

16. Steroid biosynthesis in prokaryotes: identification of myxobacterial steroids and cloning of the first bacterial 2,3(S)-oxidosqualene cyclase from the myxobacterium Stigmatella aurantiaca

Author: Bode, Helge Björn, Zeggel, Bernd, Silakowski, Barbara, Wenzel, Silke C., Reichenbach, Hans, and Müller, Rolf
Published: 2003

17. Synthesis and SAR of the antistaphylococcal natural product nematophin from Xenorhabdus nematophila

Author: Wesche, Frank, Adihou, Hélène, Wichelhaus, Thomas Alexander, Bode, Helge Björn, and Dickschat, J. S.
Subjects: ddc:570
Abstract: The repeated and improper use of antibiotics had led to an increased number of multiresistant bacteria. Therefore, new lead structures are needed. Here, the synthesis and an expanded structure–activity relationship of the simple and antistaphylococcal amide nematophin from Xenorhabdus nematophila and synthetic derivatives are described. Moreover, the synthesis of intrinsic fluorescent derivatives, incorporating azaindole moieties was achieved for the first time.
Published: 2019

18. Focused natural product elucidation by prioritizing high-throughput metabolomic studies with machine learning

Author: Tobias, Nicholas J., Parra-Rojas, César, Shi, Yan-Ni, Shi, Yi-Ming, Simonyi, Svenja, Thanwisai, Aunchalee, Vitta, Apichat, Chantratita, Narisara, Hernández-Vargas, Esteban A., Bode, Helge Björn, Tobias, Nicholas J., Parra-Rojas, César, Shi, Yan-Ni, Shi, Yi-Ming, Simonyi, Svenja, Thanwisai, Aunchalee, Vitta, Apichat, Chantratita, Narisara, Hernández-Vargas, Esteban A., and Bode, Helge Björn
Abstract: Bacteria of the genera Photorhabdus and Xenorhabdus produce a plethora of natural products to support their similar symbiotic lifecycles. For many of these compounds, the specific bioactivities are unknown. One common challenge in natural product research when trying to prioritize research efforts is the rediscovery of identical (or highly similar) compounds from different strains. Linking genome sequence to metabolite production can help in overcoming this problem. However, sequences are typically not available for entire collections of organisms. Here we perform a comprehensive metabolic screening using HPLC-MS data associated with a 114-strain collection (58 Photorhabdus and 56 Xenorhabdus) from across Thailand and explore the metabolic variation among the strains, matched with several abiotic factors. We utilize machine learning in order to rank the importance of individual metabolites in determining all given metadata. With this approach, we were able to prioritize metabolites in the context of natural product investigations, leading to the identification of previously unknown compounds. The top three highest-ranking features were associated with Xenorhabdus and attributed to the same chemical entity, cyclo(tetrahydroxybutyrate). This work addresses the need for prioritization in high-throughput metabolomic studies and demonstrates the viability of such an approach in future research.
Published: 2019

19. Genome analyses of the sunflower pathogen Plasmopara halstedii provide insights into effector evolution in downy mildews and Phytophthora

Author: Sharma, Rahul, Xia, Xiaojuan, Cano, Liliana, Evangelisti, Edouard, Kemen, Eric, Judelson, Howard, Oome, Stan, Sambles, Christine, Hoogen, D. Johan van den, Kitner, Miloslav, Klein, Joël, Meijer, Harold J. G., Spring, Otmar, Win, Joe, Zipper, Reinhard, Bode, Helge Björn, Govers, Francine, Kamoun, Sophien, Schornack, Sebastian, Studholme, David J., Ackerveken, Guido Franciscus van den, Thines, Marco, Sharma, Rahul, Xia, Xiaojuan, Cano, Liliana, Evangelisti, Edouard, Kemen, Eric, Judelson, Howard, Oome, Stan, Sambles, Christine, Hoogen, D. Johan van den, Kitner, Miloslav, Klein, Joël, Meijer, Harold J. G., Spring, Otmar, Win, Joe, Zipper, Reinhard, Bode, Helge Björn, Govers, Francine, Kamoun, Sophien, Schornack, Sebastian, Studholme, David J., Ackerveken, Guido Franciscus van den, and Thines, Marco
Abstract: Background: Downy mildews are the most speciose group of oomycetes and affect crops of great economic importance. So far, there is only a single deeply-sequenced downy mildew genome available, from Hyaloperonospora arabidopsidis. Further genomic resources for downy mildews are required to study their evolution, including pathogenicity effector proteins, such as RxLR effectors. Plasmopara halstedii is a devastating pathogen of sunflower and a potential pathosystem model to study downy mildews, as several Avr-genes and R-genes have been predicted and unlike Arabidopsis downy mildew, large quantities of almost contamination-free material can be obtained easily. Results: Here a high-quality draft genome of Plasmopara halstedii is reported and analysed with respect to various aspects, including genome organisation, secondary metabolism, effector proteins and comparative genomics with other sequenced oomycetes. Interestingly, the present analyses revealed further variation of the RxLR motif, suggesting an important role of the conservation of the dEER-motif. Orthology analyses revealed the conservation of 28 RxLR-like core effectors among Phytophthora species. Only six putative RxLR-like effectors were shared by the two sequenced downy mildews, highlighting the fast and largely independent evolution of two of the three major downy mildew lineages. This is seemingly supported by phylogenomic results, in which downy mildews did not appear to be monophyletic. Conclusions: The genome resource will be useful for developing markers for monitoring the pathogen population and might provide the basis for new approaches to fight Phytophthora and downy mildew pathogens by targeting core pathogenicity effectors.
Published: 2019

20. Synthesis and SAR of the antistaphylococcal natural product nematophin from Xenorhabdus nematophila

Author: Dickschat, J. S., Wesche, Frank, Adihou, Hélène, Wichelhaus, Thomas Alexander, Bode, Helge Björn, Dickschat, J. S., Wesche, Frank, Adihou, Hélène, Wichelhaus, Thomas Alexander, and Bode, Helge Björn
Abstract: The repeated and improper use of antibiotics had led to an increased number of multiresistant bacteria. Therefore, new lead structures are needed. Here, the synthesis and an expanded structure–activity relationship of the simple and antistaphylococcal amide nematophin from Xenorhabdus nematophila and synthetic derivatives are described. Moreover, the synthesis of intrinsic fluorescent derivatives, incorporating azaindole moieties was achieved for the first time.
Published: 2019

21. Biosynthetic gene content of the 'Perfume Lichens' Evernia prunastri and Pseudevernia furfuracea

Author: Calchera, Anjuli, Dal Grande, Francesco, Bode, Helge Björn, Schmitt, Imke, Calchera, Anjuli, Dal Grande, Francesco, Bode, Helge Björn, and Schmitt, Imke
Abstract: Lichen-forming fungi produce a vast number of unique natural products with a wide variety of biological activities and human uses. Although lichens have remarkable potential in natural product research and industry, the molecular mechanisms underlying the biosynthesis of lichen metabolites are poorly understood. Here we use genome mining and comparative genomics to assess biosynthetic gene clusters and their putative regulators in the genomes of two lichen-forming fungi, which have substantial commercial value in the perfume industry, Evernia prunastri and Pseudevernia furfuracea. We report a total of 80 biosynthetic gene clusters (polyketide synthases (PKS), non-ribosomal peptide synthetases and terpene synthases) in E. prunastri and 51 in P. furfuracea. We present an in-depth comparison of 11 clusters, which show high homology between the two species. A ketosynthase (KS) phylogeny shows that biosynthetic gene clusters from E. prunastri and P. furfuracea are widespread across the Fungi. The phylogeny includes 15 genomes of lichenized fungi and all fungal PKSs with known functions from the MIBiG database. Phylogenetically closely related KS domains predict not only similar PKS architecture but also similar cluster architecture. Our study highlights the untapped biosynthetic richness of lichen-forming fungi, provides new insights into lichen biosynthetic pathways and facilitates heterologous expression of lichen biosynthetic gene clusters.
Published: 2019

22. The benzodiazepine-like natural product tilivalline is produced by the entomopathogenic bacterium Xenorhabdus eapokensis

Author: Wolff, Hendrik, Bode, Helge Björn, and Berkel, Willem van
Subjects: ddc:570
Abstract: The pyrrolobenzodiazepine tilivalline (1) was originally identified in the human gut pathobiont Klebsiella oxytoca, the causative agent of antibiotic-associated hemorrhagic colitis. Here we show the identification of tilivalline and analogs thereof in the entomopathogenic bacterium Xenorhabdus eapokensis as well as the identification of its biosynthesis gene cluster encoding a bimodular non-ribosomal peptide synthetase. Heterologous expression of both genes in E. coli resulted in the production of 1 and from mutasynthesis and precursor directed biosynthesis 11 new tilivalline analogs were identified in X. eapokensis. These results allowed the prediction of the tilivalline biosynthesis being similar to that in K. oxytoca.
Published: 2018

23. LuxS-dependent AI-2 production is not involved in global regulation of natural product biosynthesis in Photorhabdus and Xenorhabdus

Author: Heinrich, Antje Katharina, Hirschmann, Merle, Neubacher, Nick, Bode, Helge Björn, and Keller, Nancy
Subjects: animal structures, ddc:570
Abstract: The Gram-negative bacteria Photorhabdus and Xenorhabdus are known to produce a variety of different natural products (NP). These compounds play different roles since the bacteria live in symbiosis with nematodes and are pathogenic to insect larvae in the soil. Thus, a fine tuned regulatory system controlling NP biosynthesis is indispensable. Global regulators such as Hfq, Lrp, LeuO and HexA have been shown to influence NP production of Photorhabdus and Xenorhabdus. Additionally, photopyrones as quorum sensing (QS) signals were demonstrated to be involved in the regulation of NP production in Photorhabdus. In this study, we investigated the role of another possible QS signal, autoinducer-2 (AI-2), in regulation of NP production. The AI-2 synthase (LuxS) is widely distributed within the bacterial kingdom and has a dual role as a part of the activated methyl cycle pathway, as well as being responsible for AI-2 precursor production. We deleted luxS in three different entomopathogenic bacteria and compared NP levels in the mutant strains to the wild type (WT) but observed no difference to the WT strains. Furthermore, the absence of the small regulatory RNA micA, which is encoded directly upstream of luxS, did not influence NP levels. Phenotypic differences between the P. luminescens luxS deletion mutant and an earlier described luxS deficient strain of P. luminescens suggested that two phenotypically different strains have evolved in different laboratories.
Published: 2017

24. UV mutagenesis and enzyme inhibitors as tools to elucidate the late biosynthesis of the spirobisnaphthalenes

Author: Bode, Helge Björn and Zeeck, Axel
Published: 2000
Full Text: View/download PDF

25. Correction : velvet domain protein VosA represses the zinc cluster transcription factor SclB regulatory network for Aspergillus nidulans asexual development, oxidative stress response and secondary metabolism

Author: Thieme, Karl G., Gerke, Jennifer, Sasse, Christoph, Valerius, Oliver, Thieme, Sabine, Karimi, Razieh, Heinrich, Antje Katharina, Finkernagel, Florian, Smith, Kristina, Bode, Helge Björn, Freitag, Michael, Ram, Arthur F. J., Braus, Gerhard H., Thieme, Karl G., Gerke, Jennifer, Sasse, Christoph, Valerius, Oliver, Thieme, Sabine, Karimi, Razieh, Heinrich, Antje Katharina, Finkernagel, Florian, Smith, Kristina, Bode, Helge Björn, Freitag, Michael, Ram, Arthur F. J., and Braus, Gerhard H.
Abstract: There is an error in panel D of S8 Fig. Specifically, the upper panel should read "SclB-cYFP + nYFP", not "SclA-cYFP + nYFP". The authors have provided a corrected version here.
Published: 2018

26. Structure-based redesign of docking domain interactions modulates the product spectrum of a rhabdopeptide-synthesizing NRPS

Author: Hacker, Carolin, Cai, Xiaofeng, Kegler, Carsten, Zhao, Lei, Weickhmann, Anna Katharina, Wurm, Jan Philip, Bode, Helge Björn, Wöhnert, Jens, Hacker, Carolin, Cai, Xiaofeng, Kegler, Carsten, Zhao, Lei, Weickhmann, Anna Katharina, Wurm, Jan Philip, Bode, Helge Björn, and Wöhnert, Jens
Abstract: Several peptides in clinical use are derived from non-ribosomal peptide synthetases (NRPS). In these systems multiple NRPS subunits interact with each other in a specific linear order mediated by specific docking domains (DDs), whose structures are not known yet, to synthesize well-defined peptide products. In contrast to classical NRPSs, single-module NRPS subunits responsible for the generation of rhabdopeptide/xenortide-like peptides (RXPs) can act in different order depending on subunit stoichiometry thereby producing peptide libraries. To define the basis for their unusual interaction patterns, we determine the structures of all N-terminal DDs (NDDs) as well as of an NDD-CDD complex and characterize all putative DD interactions thermodynamically for such a system. Key amino acid residues for DD interactions are identified that upon their exchange change the DD affinity and result in predictable changes in peptide production. Recognition rules for DD interactions are identified that also operate in other megasynthase complexes.
Published: 2018

27. The benzodiazepine-like natural product tilivalline is produced by the entomopathogenic bacterium Xenorhabdus eapokensis

Author: Berkel, Willem van, Wolff, Hendrik, Bode, Helge Björn, Berkel, Willem van, Wolff, Hendrik, and Bode, Helge Björn
Abstract: The pyrrolobenzodiazepine tilivalline (1) was originally identified in the human gut pathobiont Klebsiella oxytoca, the causative agent of antibiotic-associated hemorrhagic colitis. Here we show the identification of tilivalline and analogs thereof in the entomopathogenic bacterium Xenorhabdus eapokensis as well as the identification of its biosynthesis gene cluster encoding a bimodular non-ribosomal peptide synthetase. Heterologous expression of both genes in E. coli resulted in the production of 1 and from mutasynthesis and precursor directed biosynthesis 11 new tilivalline analogs were identified in X. eapokensis. These results allowed the prediction of the tilivalline biosynthesis being similar to that in K. oxytoca.
Published: 2018

28. Lauschangriff mit tödlichen Folgen : Signalmoleküle von Bakterien können fremden Arten schaden

Author: Bode, Helge Björn
Subjects: ddc:570
Abstract: Eine der wichtigsten Fähigkeiten aller Lebewesen ist die Kommunikation. Ihre universelle Ausdrucksform findet sie im Austausch hoch spezifischer Signalmoleküle. Bei der Entschlüsselung der diversen »Sprachen« und »Dialekte« von Bakterien machen Forscher immer wieder neue und überraschende Entdeckungen, die auch eine Alternative zu Antibiotika versprechen.
Published: 2016

29. Draft genome sequence of ochrobactrum anthropi strain ML7 isolated from soil samples in Vinhphuc province, Vietnam

Author: Tobias, Nicholas J., Mishra, Bagdevi, Gupta, Deepak Kumar, Long, Phan Ke, Thines, Marco, and Bode, Helge Björn
Subjects: ddc:570, fungi, food and beverages
Abstract: Ochrobactrum species are widespread in the environment and can colonize a wide variety of habitats. Here, we describe the sequencing of a new environmental isolate of Ochrobactrum anthropi isolated from northern Vietnam.
Published: 2015

30. LuxS-dependent AI-2 production is not involved in global regulation of natural product biosynthesis in Photorhabdus and Xenorhabdus

Author: Keller, Nancy, Heinrich, Antje Katharina, Hirschmann, Merle, Neubacher, Nick, Bode, Helge Björn, Keller, Nancy, Heinrich, Antje Katharina, Hirschmann, Merle, Neubacher, Nick, and Bode, Helge Björn
Abstract: The Gram-negative bacteria Photorhabdus and Xenorhabdus are known to produce a variety of different natural products (NP). These compounds play different roles since the bacteria live in symbiosis with nematodes and are pathogenic to insect larvae in the soil. Thus, a fine tuned regulatory system controlling NP biosynthesis is indispensable. Global regulators such as Hfq, Lrp, LeuO and HexA have been shown to influence NP production of Photorhabdus and Xenorhabdus. Additionally, photopyrones as quorum sensing (QS) signals were demonstrated to be involved in the regulation of NP production in Photorhabdus. In this study, we investigated the role of another possible QS signal, autoinducer-2 (AI-2), in regulation of NP production. The AI-2 synthase (LuxS) is widely distributed within the bacterial kingdom and has a dual role as a part of the activated methyl cycle pathway, as well as being responsible for AI-2 precursor production. We deleted luxS in three different entomopathogenic bacteria and compared NP levels in the mutant strains to the wild type (WT) but observed no difference to the WT strains. Furthermore, the absence of the small regulatory RNA micA, which is encoded directly upstream of luxS, did not influence NP levels. Phenotypic differences between the P. luminescens luxS deletion mutant and an earlier described luxS deficient strain of P. luminescens suggested that two phenotypically different strains have evolved in different laboratories.
Published: 2017

31. Distinguishing commercially grown Ganoderma lucidum from Ganoderma lingzhi from Europe and East Asia on the basis of morphology, molecular phylogeny, and triterpenic acid profiles

Author: Hennicke, Florian, Cheikh-Ali, Zakaria, Liebisch, Tim, Maciá-Vicente, Jose G., Bode, Helge Björn, Piepenbring, Meike, Hennicke, Florian, Cheikh-Ali, Zakaria, Liebisch, Tim, Maciá-Vicente, Jose G., Bode, Helge Björn, and Piepenbring, Meike
Abstract: In China and other countries of East Asia, so-called Ling-zhi or Reishi mushrooms are used in traditional medicine since several centuries. Although the common practice to apply the originally European name ‘Ganoderma lucidum’ to these fungi has been questioned by several taxonomists, this is still generally done in recent publications and with commercially cultivated strains. In the present study, two commercially sold strains of ‘G. lucidum’, M9720 and M9724 from the company Mycelia bvba (Belgium), are compared for their fruiting body (basidiocarp) morphology combined with molecular phylogenetic analyses, and for their secondary metabolite profile employing an ultra-performance liquid chromatography–electrospray ionization mass spectrometry (UPLC–ESIMS) in combination with a high resolution electrospray ionization mass spectrometry (HR-ESI-MS). According to basidiocarp morphology, the strain M9720 was identified as G. lucidum s.str. whereas M9724 was determined as Ganoderma lingzhi. In molecular phylogenetic analyses, the M9720 ITS and beta-tubulin sequences grouped with sequences of G. lucidum s.str. from Europe whereas those from M9724 clustered with sequences of G. lingzhi from East Asia. We show that an ethanol extract of ground basidiocarps from G. lucidum (M9720) contains much less triterpenic acids than found in the extract of G. lingzhi (M9724). The high amount of triterpenic acids accounts for the bitter taste of the basidiocarps of G. lingzhi (M9724) and of its ethanol extract. Apparently, triterpenic acids of G. lucidum s.str. are analyzed here for the first time. These results demonstrate the importance of taxonomy for commercial use of fungi.
Published: 2017

32. Heterogeneous regulation of bacterial natural product biosynthesis via a novel transcription factor

Author: Heinrich, Antje Katharina, Glaeser, Angela, Tobias, Nicholas J., Heermann, Ralf, Bode, Helge Björn, Heinrich, Antje Katharina, Glaeser, Angela, Tobias, Nicholas J., Heermann, Ralf, and Bode, Helge Björn
Abstract: Biological diversity arises among genetically equal subpopulations in the same environment, a phenomenon called phenotypic heterogeneity. The life cycle of the enteric bacterium Photorhabdus luminescens involves a symbiotic interaction with nematodes as well as a pathogenic association with insect larvae. P. luminescens exists in two distinct phenotypic forms designated as primary (1°) and secondary (2°). In contrast to 1° cells, 2° cells are non-pigmented due to the absence of natural compounds, especially anthraquinones (AQs). We identified a novel type of transcriptional regulator, AntJ, which activates expression of the antA-I operon responsible for AQ production. AntJ heterogeneously activates the AQ production in single P. luminescens 1° cells, and blocks AQ production in 2° cells. AntJ contains a proposed ligand-binding WYL-domain, which is widespread among bacteria. AntJ is one of the rare examples of regulators that mediate heterogeneous gene expression by altering activity rather than copy number in single cells.
Published: 2017

33. Molecular keys to the Janthinobacterium and Duganella spp. interaction with the plant pathogen Fusarium graminearum

Author: Charles, Trevor Carlos, Haack, Frederike Svenja, Poehlein, Anja, Kröger, Cathrin, Voigt, Christian A., Piepenbring, Meike, Bode, Helge Björn, Daniel, Rolf, Schäfer, Wilhelm, Streit, Wolfgang R., Charles, Trevor Carlos, Haack, Frederike Svenja, Poehlein, Anja, Kröger, Cathrin, Voigt, Christian A., Piepenbring, Meike, Bode, Helge Björn, Daniel, Rolf, Schäfer, Wilhelm, and Streit, Wolfgang R.
Abstract: Janthinobacterium and Duganella are well-known for their antifungal effects. Surprisingly, almost nothing is known on molecular aspects involved in the close bacterium-fungus interaction. To better understand this interaction, we established the genomes of 11 Janthinobacterium and Duganella isolates in combination with phylogenetic and functional analyses of all publicly available genomes. Thereby, we identified a core and pan genome of 1058 and 23,628 genes. All strains encoded secondary metabolite gene clusters and chitinases, both possibly involved in fungal growth suppression. All but one strain carried a single gene cluster involved in the biosynthesis of alpha-hydroxyketone-like autoinducer molecules, designated JAI-1. Genome-wide RNA-seq studies employing the background of two isolates and the corresponding JAI-1 deficient strains identified a set of 45 QS-regulated genes in both isolates. Most regulated genes are characterized by a conserved sequence motif within the promoter region. Among the most strongly regulated genes were secondary metabolite and type VI secretion system gene clusters. Most intriguing, co-incubation studies of J. sp. HH102 or its corresponding JAI-1 synthase deletion mutant with the plant pathogen Fusarium graminearum provided first evidence of a QS-dependent interaction with this pathogen.
Published: 2017

34. Legionella shows a diverse secondary metabolism dependent on a broad spectrum Sfp-type phosphopantetheinyl transferase

Author: Tobias, Nicholas J., Ahrendt, Tilman, Schell, Ursula, Miltenberger, Melissa, Hilbi, Hubert, Bode, Helge Björn, Tobias, Nicholas J., Ahrendt, Tilman, Schell, Ursula, Miltenberger, Melissa, Hilbi, Hubert, and Bode, Helge Björn
Abstract: Several members of the genus Legionella cause Legionnaires’ disease, a potentially debilitating form of pneumonia. Studies frequently focus on the abundant number of virulence factors present in this genus. However, what is often overlooked is the role of secondary metabolites from Legionella. Following whole genome sequencing, we assembled and annotated the Legionella parisiensis DSM 19216 genome. Together with 14 other members of the Legionella, we performed comparative genomics and analysed the secondary metabolite potential of each strain. We found that Legionella contains a huge variety of biosynthetic gene clusters (BGCs) that are potentially making a significant number of novel natural products with undefined function. Surprisingly, only a single Sfp-like phosphopantetheinyl transferase is found in all Legionella strains analyzed that might be responsible for the activation of all carrier proteins in primary (fatty acid biosynthesis) and secondary metabolism (polyketide and non-ribosomal peptide synthesis). Using conserved active site motifs, we predict some novel compounds that are probably involved in cell-cell communication, differing to known communication systems. We identify several gene clusters, which may represent novel signaling mechanisms and demonstrate the natural product potential of Legionella.
Published: 2016

35. Genome comparisons provide insights into the role of secondary metabolites in the pathogenic phase of the Photorhabdus life cycle

Author: Tobias, Nicholas J., Mishra, Bagdevi, Gupta, Deepak Kumar, Sharma, Rahul, Thines, Marco, Stinear, Timothy P., Bode, Helge Björn, Tobias, Nicholas J., Mishra, Bagdevi, Gupta, Deepak Kumar, Sharma, Rahul, Thines, Marco, Stinear, Timothy P., and Bode, Helge Björn
Abstract: Background: Bacteria within the genus Photorhabdus maintain mutualistic symbioses with nematodes in complicated lifecycles that also involves insect pathogenic phases. Intriguingly, these bacteria are rich in biosynthetic gene clusters that produce compounds with diverse biological activities. As a basis to better understand the life cycles of Photorhabdus we sequenced the genomes of two recently discovered representative species and performed detailed genomic comparisons with five publically available genomes. Results: Here we report the genomic details of two new reference Photorhabdus species. By then conducting genomic comparisons across the genus, we show that there are several highly conserved biosynthetic gene clusters. These clusters produce a range of bioactive small molecules that support the pathogenic phase of the integral relationship that Photorhabdus maintain with nematodes. Conclusions: Photorhabdus contain several genetic loci that allow them to become specialist insect pathogens by efficiently evading insect immune responses and killing the insect host.
Published: 2016

36. Identification of the Sfp-type PPTase EppA from the lichenized fungus Evernia prunastri

Author: Schimming, Olivia, Schmitt, Imke, Bode, Helge Björn, Schimming, Olivia, Schmitt, Imke, and Bode, Helge Björn
Abstract: In the last decades, natural products from lichens have gained more interest for pharmaceutical application due to the broad range of their biological activity. However, isolation of the compounds of interest directly from the lichen is neither feasible nor sustainable due to slow growth of many lichens. In order to develop a pipeline for heterologous expression of lichen biosynthesis gene clusters and thus the sustainable production of their bioactive compounds we have identified and characterized the phosphopantheteinyl transferase (PPTase) EppA from the lichen Evernia prunastri. The Sfp-type PPTase EppA was functionally characterized through heterologous expression in E. coli using the production of the blue pigment indigoidine as readout and by complementation of a lys5 deletion in S. cerevisiae.
Published: 2016

37. The expression of stlA in Photorhabdus luminescens is controlled by nutrient limitation

Author: Lango-Scholey, Lea, Brachmann, Alexander Oliver, Bode, Helge Björn, and Clarke, David J.
Subjects: ddc:570
Abstract: Photorhabdus is a genus of Gram-negative entomopathogenic bacteria that also maintain a mutualistic association with nematodes from the family Heterorhabditis. Photorhabdus has an extensive secondary metabolism that is required for the interaction between the bacteria and the nematode. A major component of this secondary metabolism is a stilbene molecule, called ST. The first step in ST biosynthesis is the non-oxidative deamination of phenylalanine resulting in the production of cinnamic acid. This reaction is catalyzed by phenylalanine-ammonium lyase, an enzyme encoded by the stlA gene. In this study we show, using a stlA-gfp transcriptional fusion, that the expression of stlA is regulated by nutrient limitation through a regulatory network that involves at least 3 regulators. We show that TyrR, a LysR-type transcriptional regulator that regulates gene expression in response to aromatic amino acids in E. coli, is absolutely required for stlA expression. We also show that stlA expression is modulated by σS and Lrp, regulators that are implicated in the regulation of the response to nutrient limitation in other bacteria. This work is the first that describes pathway-specific regulation of secondary metabolism in Photorhabdus and, therefore, our study provides an initial insight into the complex regulatory network that controls secondary metabolism, and therefore mutualism, in this model organism.
Published: 2013

38. Minimum information about a biosynthetic gene cluster

Author: Medema, Marnix H., Kottmann, Renzo, Yilmaz, Pelin, Cummings, Matthew, Biggins, John B., Kai, Blin, de Bruijn, Irene, Chooi, Yit Heng, Claesen, Jan, Coates, R. Cameron, Cruz-Morales, Pablo, Duddela, Srikanth, Düsterhus, Stephanie, Edwards, Daniel J., Fewer, David P., Garg, Neha, Geiger, Christoph, Gomez-Escribano, Juan Pablo, Greule, Anja, Hadjithomas, Michalis, Haines, Anthony S., Helfrich, Eric J. N., Hillwig, Matthew L., Ishida, Keishi, Jones, Adam C., Jones, Carla S., Jungmann, Katrin, Kegler, Carsten, Kim, Hyun Uk, Kötter, Peter, Krug, Daniel, Masschelein, Joleen, Melnik, Alexey V., Mantovan, Simone M., Monroe, Emily A., Moore, Marcus, Moss, Nathan, Nützmann, Hans-Wilhelm, Pan, Guohui, Pati, Amrita, Petras, Daniel, Reen, F. Jerry, Rosconi, Federico, Rui, Zhe, Tian, Zhenhua, Tobias, Nicholas J., Tsunematsu, Yuta, Wiemann, Philipp, Wyckoff, Elizabeth, Yan, Xiaohui, Yim, Grace, Yu, Fengan, Xie, Yunchang, Aigle, Bertrand, Apel, Alexander K., Balibar, Carl J., Balskus, Emily P., Barona-Gómez, Francisco, Bechthold, Andreas, Bode, Helge Björn, Borriss, Rainer, Brady, Sean F., Brakhage, Axel A., Caffrey, Patrick, Cheng, Yi-Qiang, Clardy, Jon, Cox, Russell J., De Mot, René, Donadio, Stefano, Donia, Mohamed S., van der Donk, Wilfred A., Dorrestein, Pieter C., Doyle, Sean, Driessen, Arnold J. M., Ehling-Schulz, Monika, Entian, Karl-Dieter, Fischbach, Michael A., Gerwick, Lena, Gerwick, William H., Gross, Harald, Gust, Bertolt, Hertweck, Christian, Höfte, Monica, Jensen, Susan E., Ju, Jianhua, Katz, Leonard, Kaysser, Leonard, Klassen, Jonathan L., Keller, Nancy P., Kormanec, Jan, Kuipers, Oscar P., Kuzuyama, Tomohisa, Kyrpides, Nikos C., Kwon, Hyung-Jin, Lautru, Sylvie, Lavigne, Rob, Lee, Chia Y., Linquan, Bai, Liu, Xinyu, Liu, Wen, Luzhetskyy, Andriy, Mahmud, Taifo, Mast, Yvonne, Méndez, Carmen, Metsä-Ketelä, Mikko, Micklefield, Jason, Mitchell, Douglas A., Moore, Bradley S., Moreira, Leonilde M., Müller, Rolf, Neilan, Brett A., Nett, Markus, Nielsen, Jens, O’Gara, Fergal, Oikawa, Hideaki, Osbourn, Anne, Osburne, Marcia S., Ostash, Bohdan, Payne, Shelley M., Pernodet, Jean-Luc, Petricek, Miroslav, Piel, Jörn, Ploux, Olivier, Raaijmakers, Jos M., Salas, José A., Schmitt, Esther K., Scott, Barry, Seipke, Ryan F., Shen, Ben, Sherman, David H., Sivonen, Kaarina, Smanski, Michael J., Sosio, Margherita, Stegmann, Evi, Süssmuth, Roderich D., Tahlan, Kapil, Thomas, Christopher M., Tang, Yi, Truman, Andrew W., Viaud, Muriel, Walton, Jonathan D., Walsh, Christopher T., Weber, Tilmann, van Wezel, Gilles P., Wilkinson, Barrie, Willey, Joanne M., Wohlleben, Wolfgang, Wright, Gerard D., Ziemert, Nadine, Zhang, Changsheng, Zotchev, Sergey B., Breitling, Rainer, Takano, Eriko, Glöckner, Frank Oliver, Medema, Marnix H., Kottmann, Renzo, Yilmaz, Pelin, Cummings, Matthew, Biggins, John B., Kai, Blin, de Bruijn, Irene, Chooi, Yit Heng, Claesen, Jan, Coates, R. Cameron, Cruz-Morales, Pablo, Duddela, Srikanth, Düsterhus, Stephanie, Edwards, Daniel J., Fewer, David P., Garg, Neha, Geiger, Christoph, Gomez-Escribano, Juan Pablo, Greule, Anja, Hadjithomas, Michalis, Haines, Anthony S., Helfrich, Eric J. N., Hillwig, Matthew L., Ishida, Keishi, Jones, Adam C., Jones, Carla S., Jungmann, Katrin, Kegler, Carsten, Kim, Hyun Uk, Kötter, Peter, Krug, Daniel, Masschelein, Joleen, Melnik, Alexey V., Mantovan, Simone M., Monroe, Emily A., Moore, Marcus, Moss, Nathan, Nützmann, Hans-Wilhelm, Pan, Guohui, Pati, Amrita, Petras, Daniel, Reen, F. Jerry, Rosconi, Federico, Rui, Zhe, Tian, Zhenhua, Tobias, Nicholas J., Tsunematsu, Yuta, Wiemann, Philipp, Wyckoff, Elizabeth, Yan, Xiaohui, Yim, Grace, Yu, Fengan, Xie, Yunchang, Aigle, Bertrand, Apel, Alexander K., Balibar, Carl J., Balskus, Emily P., Barona-Gómez, Francisco, Bechthold, Andreas, Bode, Helge Björn, Borriss, Rainer, Brady, Sean F., Brakhage, Axel A., Caffrey, Patrick, Cheng, Yi-Qiang, Clardy, Jon, Cox, Russell J., De Mot, René, Donadio, Stefano, Donia, Mohamed S., van der Donk, Wilfred A., Dorrestein, Pieter C., Doyle, Sean, Driessen, Arnold J. M., Ehling-Schulz, Monika, Entian, Karl-Dieter, Fischbach, Michael A., Gerwick, Lena, Gerwick, William H., Gross, Harald, Gust, Bertolt, Hertweck, Christian, Höfte, Monica, Jensen, Susan E., Ju, Jianhua, Katz, Leonard, Kaysser, Leonard, Klassen, Jonathan L., Keller, Nancy P., Kormanec, Jan, Kuipers, Oscar P., Kuzuyama, Tomohisa, Kyrpides, Nikos C., Kwon, Hyung-Jin, Lautru, Sylvie, Lavigne, Rob, Lee, Chia Y., Linquan, Bai, Liu, Xinyu, Liu, Wen, Luzhetskyy, Andriy, Mahmud, Taifo, Mast, Yvonne, Méndez, Carmen, Metsä-Ketelä, Mikko, Micklefield, Jason, Mitchell, Douglas A., Moore, Bradley S., Moreira, Leonilde M., Müller, Rolf, Neilan, Brett A., Nett, Markus, Nielsen, Jens, O’Gara, Fergal, Oikawa, Hideaki, Osbourn, Anne, Osburne, Marcia S., Ostash, Bohdan, Payne, Shelley M., Pernodet, Jean-Luc, Petricek, Miroslav, Piel, Jörn, Ploux, Olivier, Raaijmakers, Jos M., Salas, José A., Schmitt, Esther K., Scott, Barry, Seipke, Ryan F., Shen, Ben, Sherman, David H., Sivonen, Kaarina, Smanski, Michael J., Sosio, Margherita, Stegmann, Evi, Süssmuth, Roderich D., Tahlan, Kapil, Thomas, Christopher M., Tang, Yi, Truman, Andrew W., Viaud, Muriel, Walton, Jonathan D., Walsh, Christopher T., Weber, Tilmann, van Wezel, Gilles P., Wilkinson, Barrie, Willey, Joanne M., Wohlleben, Wolfgang, Wright, Gerard D., Ziemert, Nadine, Zhang, Changsheng, Zotchev, Sergey B., Breitling, Rainer, Takano, Eriko, and Glöckner, Frank Oliver
Abstract: A wide variety of enzymatic pathways that produce specialized metabolites in bacteria, fungi and plants are known to be encoded in biosynthetic gene clusters. Information about these clusters, pathways and metabolites is currently dispersed throughout the literature, making it difficult to exploit. To facilitate consistent and systematic deposition and retrieval of data on biosynthetic gene clusters, we propose the Minimum Information about a Biosynthetic Gene cluster (MIBiG) data standard.
Published: 2015

39. From insect to man : Photorhabdus sheds light on the emergence of human pathogenicity

Author: Mulley, Geraldine, Beeton, Michael L., Wilkinson, Paul, Vlisidou, Isabella, Ockendon-Powell, Nina, Hapeshi, Alexia, Tobias, Nicholas J., Nollmann, Friederike I., Bode, Helge Björn, Elsen, Jean van den, ffrench-Constant, Richard H., Waterfield, Nicholas R., Mulley, Geraldine, Beeton, Michael L., Wilkinson, Paul, Vlisidou, Isabella, Ockendon-Powell, Nina, Hapeshi, Alexia, Tobias, Nicholas J., Nollmann, Friederike I., Bode, Helge Björn, Elsen, Jean van den, ffrench-Constant, Richard H., and Waterfield, Nicholas R.
Abstract: Photorhabdus are highly effective insect pathogenic bacteria that exist in a mutualistic relationship with Heterorhabditid nematodes. Unlike other members of the genus, Photorhabdus asymbiotica can also infect humans. Most Photorhabdus cannot replicate above 34°C, limiting their host-range to poikilothermic invertebrates. In contrast, P. asymbiotica must necessarily be able to replicate at 37°C or above. Many well-studied mammalian pathogens use the elevated temperature of their host as a signal to regulate the necessary changes in gene expression required for infection. Here we use RNA-seq, proteomics and phenotype microarrays to examine temperature dependent differences in transcription, translation and phenotype of P. asymbiotica at 28°C versus 37°C, relevant to the insect or human hosts respectively. Our findings reveal relatively few temperature dependant differences in gene expression. There is however a striking difference in metabolism at 37°C, with a significant reduction in the range of carbon and nitrogen sources that otherwise support respiration at 28°C. We propose that the key adaptation that enables P. asymbiotica to infect humans is to aggressively acquire amino acids, peptides and other nutrients from the human host, employing a so called “nutritional virulence” strategy. This would simultaneously cripple the host immune response while providing nutrients sufficient for reproduction. This might explain the severity of ulcerated lesions observed in clinical cases of Photorhabdosis. Furthermore, while P. asymbiotica can invade mammalian cells they must also resist immediate killing by humoral immunity components in serum. We observed an increase in the production of the insect Phenol-oxidase inhibitor Rhabduscin normally deployed to inhibit the melanisation immune cascade. Crucially we demonstrated this molecule also facilitates protection against killing by the alternative human complement pathway.
Published: 2015

40. LuxR solos in Photorhabdus species

Author: Brameyer, Sophie, Kresovic, Darko, Bode, Helge Björn, Heermann, Ralf, Brameyer, Sophie, Kresovic, Darko, Bode, Helge Björn, and Heermann, Ralf
Abstract: Bacteria communicate via small diffusible molecules to mediate group-coordinated behavior, a process designated as quorum sensing. The basic molecular quorum sensing system of Gram-negative bacteria consists of a LuxI-type autoinducer synthase producing acyl-homoserine lactones (AHLs) as signaling molecules, and a LuxR-type receptor detecting the AHLs to control expression of specific genes. However, many proteobacteria possess one or more unpaired LuxR-type receptors that lack a cognate LuxI-like synthase, referred to as LuxR solos. The enteric and insect pathogenic bacteria of the genus Photorhabdus harbor an extraordinarily high number of LuxR solos, more than any other known bacteria, and all lack a LuxI-like synthase. Here, we focus on the presence and the different types of LuxR solos in the three known Photorhabdus species using bioinformatics analyses. Generally, the N-terminal signal-binding domain (SBD) of LuxR-type receptors sensing AHLs have a motif of six conserved amino acids that is important for binding and specificity of the signaling molecule. However, this motif is altered in the majority of the Photorhabdus-specific LuxR solos, suggesting the use of other signaling molecules than AHLs. Furthermore, all Photorhabdus species contain at least one LuxR solo with an intact AHL-binding motif, which might allow the ability to sense AHLs of other bacteria. Moreover, all three species have high AHL-degrading activity caused by the presence of different AHL-lactonases and AHL-acylases, revealing a high quorum quenching activity against other bacteria. However, the majority of the other LuxR solos in Photorhabdus have a N-terminal so-called PAS4-domain instead of an AHL-binding domain, containing different amino acid motifs than the AHL-sensors, which potentially allows the recognition of a highly variable range of signaling molecules that can be sensed apart from AHLs. These PAS4-LuxR solos are proposed to be involved in host sensing, and therefore in inte
Published: 2014

41. Identification and biosynthesis of a novel xanthomonadin-dialkylresorcinol-hybrid from Azoarcus sp. BH72

Author: Schöner, Tim A., Fuchs, Sebastian W., Reinhold-Hurek, Barbara, Bode, Helge Björn, Schöner, Tim A., Fuchs, Sebastian W., Reinhold-Hurek, Barbara, and Bode, Helge Björn
Abstract: A novel xanthomonadin-dialkylresorcinol hybrid named arcuflavin was identified in Azoarcus sp. BH72 by a combination of feeding experiments, HPLC-MS and MALDI-MS and gene clusters encoding the biosynthesis of this non-isoprenoid aryl-polyene containing pigment are reported. A chorismate-utilizing enzyme from the XanB2-type producing 3- and 4-hydroxybenzoic acid and an AMP-ligase encoded by these gene clusters were characterized, that might perform the first two steps of the polyene biosynthesis. Furthermore, a detailed analysis of the already known or novel biosynthesis gene clusters involved in the biosynthesis of polyene containing pigments like arcuflavin, flexirubin and xanthomonadin revealed the presence of similar gene clusters in a wide range of bacterial taxa, suggesting that polyene and polyene-dialkylresorcinol pigments are more widespread than previously realized.
Published: 2014

42. Possibility of Bacterial Recruitment of Plant Genes Associated with the Biosynthesis of Secondary Metabolites1

Author: Bode, Helge Björn and Müller, Rolf
Subjects: Bacteria, Genes, Bacterial, Steroids, Plants, Genes, Plant, Update on Biosynthesis of Secondary Metabolites
Published: 2003

43. 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

44. Identification and isolation of insecticidal oxazoles from Pseudomonas spp.

Author: Grundmann, Florian, Dill, Veronika, Dowling, Andrea, Thanwisai, Aunchalee, Bode, Edna, Chantratita, Narisara, ffrench-Constant, Richard, Bode, Helge Björn, Grundmann, Florian, Dill, Veronika, Dowling, Andrea, Thanwisai, Aunchalee, Bode, Edna, Chantratita, Narisara, ffrench-Constant, Richard, and Bode, Helge Björn
Abstract: Two new and five known oxazoles were identified from two different Pseudomonas strains in addition to the known pyrones pseudopyronine A and B. Labeling experiments confirmed their structures and gave initial evidence for a novel biosynthesis pathway of these natural oxazoles. In order to confirm their structure, they were synthesized, which also allowed tests of their bioactivity. Additionally, the bioactivities of the synthesis intermediates were also investigated revealing interesting biological activities for several compounds despite their overall simple structures.
Published: 2012

45. Cytosolic re-localization and optimization of valine synthesis and catabolism enables increased isobutanol production with the yeast Saccharomyces cerevisiae

Author: Brat, Dawid, Weber, Christian, Lorenzen, Wolfram, Bode, Helge Björn, Boles, Eckhard, Brat, Dawid, Weber, Christian, Lorenzen, Wolfram, Bode, Helge Björn, and Boles, Eckhard
Abstract: Background: The branched chain alcohol isobutanol exhibits superior physicochemical properties as an alternative biofuel. The yeast Saccharomyces cerevisiae naturally produces low amounts of isobutanol as a by-product during fermentations, resulting from the catabolism of valine. As S. cerevisiae is widely used in industrial applications and can easily be modified by genetic engineering, this microorganism is a promising host for the fermentative production of higher amounts of isobutanol. Results: Isobutanol production could be improved by re-locating the valine biosynthesis enzymes Ilv2, Ilv5 and Ilv3 from the mitochondrial matrix into the cytosol. To prevent the import of the three enzymes into yeast mitochondria, N-terminally shortened Ilv2, Ilv5 and Ilv3 versions were constructed lacking their mitochondrial targeting sequences. SDS-PAGE and immunofluorescence analyses confirmed expression and re-localization of the truncated enzymes. Growth tests or enzyme assays confirmed enzymatic activities. Isobutanol production was only increased in the absence of valine and the simultaneous blockage of the mitochondrial valine synthesis pathway. Isobutanol production could be even more enhanced after adapting the codon usage of the truncated valine biosynthesis genes to the codon usage of highly expressed glycolytic genes. Finally, a suitable ketoisovalerate decarboxylase, Aro10, and alcohol dehydrogenase, Adh2, were selected and overexpressed. The highest isobutanol titer was 0.63 g/L at a yield of nearly 15 mg per g glucose. Conclusion: A cytosolic isobutanol production pathway was successfully established in yeast by re-localization and optimization of mitochondrial valine synthesis enzymes together with overexpression of Aro10 decarboxylase and Adh2 alcohol dehydrogenase. Driving forces were generated by blocking competition with the mitochondrial valine pathway and by omitting valine from the fermentation medium. Additional deletion of pyruvate decarboxylase genes an
Published: 2012

46. Diversity of Xenorhabdus and Photorhabdus spp. and their symbiotic entomopathogenic nematodes from Thailand

Author: Thanwisai, Aunchalee, Tandhavanant, Sarunporn, Saiprom, Natnaree, Waterfield, Nick R., Long, Phan Ke, Bode, Helge Björn, Peacock, Sharon J., Chantratita, Narisara, Thanwisai, Aunchalee, Tandhavanant, Sarunporn, Saiprom, Natnaree, Waterfield, Nick R., Long, Phan Ke, Bode, Helge Björn, Peacock, Sharon J., and Chantratita, Narisara
Abstract: Xenorhabdus and Photorhabdus spp. are bacterial symbionts of entomopathogenic nematodes (EPNs). In this study, we isolated and characterized Xenorhabdus and Photorhabdus spp. from across Thailand together with their associated nematode symbionts, and characterized their phylogenetic diversity. EPNs were isolated from soil samples using a Galleria-baiting technique. Bacteria from EPNs were cultured and genotyped based on recA sequence. The nematodes were identified based on sequences of 28S rDNA and internal transcribed spacer regions. A total of 795 soil samples were collected from 159 sites in 13 provinces across Thailand. A total of 126 EPNs isolated from samples taken from 10 provinces were positive for Xenorhabdus (n = 69) or Photorhabdus spp. (n = 57). Phylogenetic analysis separated the 69 Xenorhabdus isolates into 4 groups. Groups 1, 2 and 3 consisting of 52, 13 and 1 isolates related to X. stockiae, and group 4 consisting of 3 isolates related to X. miraniensis. The EPN host for isolates related to X. stockiae was S. websteri, and for X. miraniensis was S. khoisanae. The Photorhabdus species were identified as P. luminescens (n = 56) and P. asymbiotica (n = 1). Phylogenenic analysis divided P. luminescens into five groups. Groups 1 and 2 consisted of 45 and 8 isolates defined as subspecies hainanensis and akhurstii, respectively. One isolate was related to hainanensis and akhurstii, two isolates were related to laumondii, and one isolate was the pathogenic species P. asymbiotica subsp. australis. H. indica was the major EPN host for Photorhabdus. This study reveals the genetic diversity of Xenorhabdus and Photorhabdus spp. and describes new associations between EPNs and their bacterial symbionts in Thailand.
Published: 2012

47. Synthesis of szentiamide : a depsipeptide from entomopathogenic Xenorhabdus szentirmaii with activity against Plasmodium falciparum

Author: Nollmann, Friederike I., Dowling, Andrea, Kaiser, Marcel, Deckmann, Klaus, Grösch, Sabine, French-Constant, Richard, Bode, Helge Björn, Nollmann, Friederike I., Dowling, Andrea, Kaiser, Marcel, Deckmann, Klaus, Grösch, Sabine, French-Constant, Richard, and Bode, Helge Björn
Abstract: The synthesis of the recently characterized depsipeptide szentiamide (1), which is produced by the entomopathogenic bacterium Xenorhabdus szentirmaii, is described. Whereas no biological activity was previously identified for 1, the material derived from the efficient synthesis enabled additional bioactivity tests leading to the identification of a notable activity against insect cells and Plasmodium falciparum, the causative agent of malaria.
Published: 2012

48. The entomopathogenic bacterial endosymbionts Xenorhabdus and Photorhabdus: convergent lifestyles from divergent genomes

Author: Chaston, John M., Suen, Garret, Tucker, Sarah L., Andersen, Aaron W., Bhasin, Archna, Bode, Edna, Bode, Helge Björn, Brachmann, Alexander Oliver, Cowles, Charles E., Cowles, Kimberly N., Darby, Creg, Léon, Limaris de, Drace, Kevin, Du, Zijin, Givaudan, Alain, Tran, Erin E. Herbert, Jewell, Kelsea A., Knack, Jennifer J., Krasomil-Osterfeld, Karina C., Kukor, Ryan, Lanois, Anne, Latreille, Phil, Leimgruber, Nancy K., Lipke, Carolyn M., Liu, Renyi, Lu, Xiaojun, Martens, Eric C., Marri, Pradeep R., Médigue, Claudine, Menard, Megan L., Miller, Nancy M., Morales-Soto, Nydia, Norton, Stacie, Ogier, Jean-Claude, Orchard, Samantha S., Park, Dongjin, Park, Youngjin, Qurollo, Barbara A., Renneckar Sugar, Darby, Richards, Gregory R., Rouy, Zoé, Slominski, Brad, Slominski, Kathryn, Snyder, Holly, Tjaden, Brian C., Hoeven, Ransome van der, Welch, Roy D., Wheeler, Cathy, Xiang, Bosong, Barbazuk, Brad, Gaudriault, Sophie, Goodner, Brad, Slater, Steven C., Forst, Steven, Goldman, Barry S., Goodrich-Blair, Heidi, Chaston, John M., Suen, Garret, Tucker, Sarah L., Andersen, Aaron W., Bhasin, Archna, Bode, Edna, Bode, Helge Björn, Brachmann, Alexander Oliver, Cowles, Charles E., Cowles, Kimberly N., Darby, Creg, Léon, Limaris de, Drace, Kevin, Du, Zijin, Givaudan, Alain, Tran, Erin E. Herbert, Jewell, Kelsea A., Knack, Jennifer J., Krasomil-Osterfeld, Karina C., Kukor, Ryan, Lanois, Anne, Latreille, Phil, Leimgruber, Nancy K., Lipke, Carolyn M., Liu, Renyi, Lu, Xiaojun, Martens, Eric C., Marri, Pradeep R., Médigue, Claudine, Menard, Megan L., Miller, Nancy M., Morales-Soto, Nydia, Norton, Stacie, Ogier, Jean-Claude, Orchard, Samantha S., Park, Dongjin, Park, Youngjin, Qurollo, Barbara A., Renneckar Sugar, Darby, Richards, Gregory R., Rouy, Zoé, Slominski, Brad, Slominski, Kathryn, Snyder, Holly, Tjaden, Brian C., Hoeven, Ransome van der, Welch, Roy D., Wheeler, Cathy, Xiang, Bosong, Barbazuk, Brad, Gaudriault, Sophie, Goodner, Brad, Slater, Steven C., Forst, Steven, Goldman, Barry S., and Goodrich-Blair, Heidi
Abstract: Members of the genus Xenorhabdus are entomopathogenic bacteria that associate with nematodes. The nematode-bacteria pair infects and kills insects, with both partners contributing to insect pathogenesis and the bacteria providing nutrition to the nematode from available insect-derived nutrients. The nematode provides the bacteria with protection from predators, access to nutrients, and a mechanism of dispersal. Members of the bacterial genus Photorhabdus also associate with nematodes to kill insects, and both genera of bacteria provide similar services to their different nematode hosts through unique physiological and metabolic mechanisms. We posited that these differences would be reflected in their respective genomes. To test this, we sequenced to completion the genomes of Xenorhabdus nematophila ATCC 19061 and Xenorhabdus bovienii SS-2004. As expected, both Xenorhabdus genomes encode many anti-insecticidal compounds, commensurate with their entomopathogenic lifestyle. Despite the similarities in lifestyle between Xenorhabdus and Photorhabdus bacteria, a comparative analysis of the Xenorhabdus, Photorhabdus luminescens, and P. asymbiotica genomes suggests genomic divergence. These findings indicate that evolutionary changes shaped by symbiotic interactions can follow different routes to achieve similar end points.
Published: 2011

49. Optical mapping as a routine tool for bacterial genome sequence finishing

Author: Latreille, Phil, Norton, Stacie, Goldman, Barry S., Henkhaus, John, Miller, Nancy, Barbazuk, Brad, Bode, Helge Björn, Darby, Creg, Du, Zijin, Forst, Steve, Gaudriault, Sophie, Goodner, Brad, Goodrich-Blair, Heidi, Slater, Steven, Latreille, Phil, Norton, Stacie, Goldman, Barry S., Henkhaus, John, Miller, Nancy, Barbazuk, Brad, Bode, Helge Björn, Darby, Creg, Du, Zijin, Forst, Steve, Gaudriault, Sophie, Goodner, Brad, Goodrich-Blair, Heidi, and Slater, Steven
Abstract: Background: In sequencing the genomes of two Xenorhabdus species, we encountered a large number of sequence repeats and assembly anomalies that stalled finishing efforts. This included a stretch of about 12 Kb that is over 99.9% identical between the plasmid and chromosome of X. nematophila. Results: Whole genome restriction maps of the sequenced strains were produced through optical mapping technology. These maps allowed rapid resolution of sequence assembly problems, permitted closing of the genome, and allowed correction of a large inversion in a genome assembly that we had considered finished. Conclusion: Our experience suggests that routine use of optical mapping in bacterial genome sequence finishing is warranted. When combined with data produced through 454 sequencing, an optical map can rapidly and inexpensively generate an ordered and oriented set of contigs to produce a nearly complete genome sequence assembly.
Published: 2007

50. Big Effects from Small Changes: Possible Ways to Explore Nature's Chemical Diversity

Author: Bode, Helge Björn, Bethe, Barbara, Höfs, Regina, Zeeck, Axel, Bode, Helge Björn, Bethe, Barbara, Höfs, Regina, and Zeeck, Axel
Abstract: Fungi or bacteria that produce secondary metabolites often have the potential to bring up various compounds from a single strain. The molecular basis for this well-known observation was confirmed in the last few years by several sequencing projects of different microorganisms. Besides well-known examples about induction of a selected biosynthesis (for example, by high- or low-phosphate cultivation media), no overview about the potential in this field for finding natural products was given. We have investigated the systematic alteration of easily accessible cultivation parameters (for example, media composition, aeration, culture vessel, addition of enzyme inhibitors) in order to increase the number of secondary metabolites available from one microbial source. We termed this way of revealing nature's chemical diversity the 'OSMAC (One Strain–Many Compounds) approach' and by using it we were able to isolate up to 20 different metabolites in yields up to 2.6 g L−1from a single organism. These compounds cover nearly all major natural product families, and in some cases the high production titer opens new possibilities for semisynthetic methods to enhance even more the chemical diversity of selected compounds. The OSMAC approach offers a good alternative to industrial high-throughput screening that focuses on the active principle in a distinct bioassay. In consequence, the detection of additional compounds that might be of interest as lead structures in further bioassays is impossible and clearly demonstrates the deficiency of the industrial procedure. Furthermore, our approach seems to be a useful tool to detect those metabolites that are postulated to be the final products of an amazing number of typical secondary metabolite gene clusters identified in several microorganisms. If one assumes a (more or less) defined reservoir of genetic possibilities for several biosynthetic pathways in one strain that is used for a highly flexible production of secondary metabolites de
Published: 2002
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