TY - GEN A1 - Commichau, Fabian M. A1 - Gibhardt, Johannes A1 - Heidemann, Jana A1 - Bremenkamp, Rica A1 - Rosenberg, Jonathan A1 - Seifert, Roland A1 - Kaever, Volkhard A1 - Ficner, Ralf T1 - An extracytoplasmic protein and a moonlighting enzyme modulate synthesis of c-di-AMP in Listeria monocytogenes T2 - Environmental Microbiology N2 - The second messenger cyclic di-AMP (c-di-AMP) is essential for growth of many bacteria because it controls osmolyte homeostasis. c-di-AMP can regulate the synthesis of potassium uptake systems in some bacteria and it also directly inhibits and activates potassium import and export systems, respectively. Therefore, c-di-AMP production and degradation have to be tightly regulated depending on the environmental osmolarity. The Gram-positive pathogen Listeria monocytogenes relies on the membrane-bound diadenylate cyclase CdaA for c-di-AMP production and degrades the nucleotide with two phosphodiesterases. While the enzymes producing and degrading the dinucleotide have been reasonably well examined, the regulation of c-di-AMP production is not well understood yet. Here we demonstrate that the extracytoplasmic regulator CdaR interacts with CdaA via its transmembrane helix to modulate c-di-AMP production. Moreover, we show that the phosphoglucosamine mutase GlmM forms a complex with CdaA and inhibits the diadenylate cyclase activity in vitro. We also found that GlmM inhibits c-di-AMP production in L. monocytogenes when the bacteria encounter osmotic stress. Thus, GlmM is the major factor controlling the activity of CdaA in vivo. GlmM can be assigned to the class of moonlighting proteins because it is active in metabolism and adjusts the cellular turgor depending on environmental osmolarity. Y1 - 2020 UR - https://sfamjournals.onlinelibrary.wiley.com/doi/full/10.1111/1462-2920.15008 U6 - https://doi.org/10.1111/1462-2920.15008 SN - 1462-2920 SN - 1462-2912 VL - 22 IS - 7 SP - 2771 EP - 2791 ER - TY - CHAP A1 - Rosenberg, Jonathan A1 - Richts, Björn A1 - Commichau, Fabian M. ED - Grunwald, Peter T1 - Fermentative Production of Vitamin B6 T2 - Pharmaceutical Biocatalysis : Drugs, Genetic Diseases, and Epigenetics N2 - Volume 7 of the Jenny Stanford Series on Biocatalysis deals with several different aspects of pharmaceuticals, which include not only various applications of drugs and their metabolism but also natural resources for active pharmaceutical ingredients as well as the removal of pharmaceutical pollution. In detail, novel approaches for developing microbial fermentation processes to produce vitamin B6 using microorganisms are described together with novel routes for vitamin B6 biosynthesis. The other topics discussed are new approaches for producing the successful anticancer drug Taxol from naturally occurring precursors, molecular farming through plant engineering as a cost-effective means to produce therapeutic and prophylactic proteins, and successful screening of potent microorganisms producing L-asparaginase for various chemotherapeutic applications. Furthermore, microbial biotransformations in the production and degradation of fluorinated pharmaceuticals are described. The other chapters inform the reader about the biotransformation of xenobiotics/drugs in living systems, the degradation of pharmaceuticals by white-rot fungi and their ligninolytic enzymes, and the removal of pharmaceutical pollution from municipal sewage using laccase Y1 - 2020 UR - https://www.jennystanford.com/9789814877145/pharmaceutical-biocatalysis/ SN - 978-981-4877-14-5 SN - 978-1-00-304541-0 PB - Jenny Stanford publishing CY - Singapur ER - TY - GEN A1 - Richts, Björn A1 - Hertel, Robert A1 - Potot, Sébastien A1 - Poehlein, Anja A1 - Daniel, Rolf A1 - Schyns, Ghislain A1 - Prágai, Zoltán A1 - Commichau, Fabian M. T1 - Complete Genome Sequence of the Prototrophic Bacillus subtilis subsp. subtilis Strain SP1 T2 - Microbiology Resource Announcements N2 - Here, we present the complete genome sequence of the Bacillus subtilis strain SP1. This strain is a descendant of the laboratory strain 168. The strain is suit- able for biotechnological applications because the prototrophy for tryptophan has been restored. Due to laboratory cultivation, the strain has acquired 24 additional sequence variations. Y1 - 2020 UR - https://mra.asm.org/content/9/32/e00825-20 U6 - https://doi.org/10.1128/MRA.00825-20 SN - 2576-098X VL - 9 IS - 32 ER - TY - GEN A1 - Bremenkamp, Rica A1 - Meißner, Janek A1 - Commichau, Fabian M. T1 - Ein bakterielles System zum Nachweis und Abbau des Totalherbizids Glyphosat T2 - Biologie in unserer Zeit N2 - Jedes Jahr aufs Neue kommen Studenten aus aller Welt zusammen und messen sich im internationalen Wettbewerb iGEM auf dem Gebiet der synthetischen Biologie. Dieses Jahr hat das iGEM‐Team aus Göttingen (Abbildung 1) sich mit dem kontrovers diskutierten Totalherbizid Glyphosat befasst und ein bakterielles System zum Nachweis und Abbau des Herbizids entwickelt. Y1 - 2020 UR - https://onlinelibrary.wiley.com/doi/10.1002/biuz.202070107 U6 - https://doi.org/10.1002/biuz.202070107 SN - 1521-415X SN - 0045-205X VL - 50 IS - 1 SP - 15 EP - 17 ER - TY - GEN A1 - Täuber, Sarah A1 - Dormeyer, Miriam A1 - Commichau, Fabian M. A1 - Grünberger, Alexander T1 - Visualisierung von Mutationen auf Einzelzellebene T2 - BioSpektrum N2 - Bacterial mutations have been investigated since many years, but they remain difficult to observe directly in single cells, which limits the analysis of the underlying molecular mechanism. However, for the investigation of mutations at the level of single cells, precise analytical tools are currently developed. This article describes a workflow for visualizing mutations in single cells and lays the foundation for the quantification of bacterial mutation rates in the future. Y1 - 2020 UR - https://www.biospektrum.de/blatt/d_bs_pdf&_id=1745078 U6 - https://doi.org/10.1007/s12268-020-1414-2 SN - 1868-6249 SN - 0947-0867 VL - 26 IS - 4 SP - 388 EP - 390 ER - TY - GEN A1 - Commichau, Fabian M. T1 - Hochvirulente Isolate des pathogenen Bakteriums Listeria monocytogenes T2 - BioSpektrum N2 - Das Gram-positive Bakterium Listeria monocytogenes kommt sowohl freilebend als auch als Pathogen in verschiedenen Wirbeltiertaxa sowie in Crustaceen vor. Gelangt L. monocytogenes über die Nah- rung in den menschlichen Körper, kann es Listeriose auslösen. Diese bakterielle Infektion ist für immunsupprimierte und ältere Menschen sowie für schwangere Frauen besonders gefährlich. Aufgrund unzureichender hygienischer Maßnahmen bei der Lebensmittelzubereitung kam es in der Vergangenheit immer wieder zu Todesfällen. Kürzlich berichteten Yuelan Yin et al. (Nat Commun (2019) 10:4283) von den virulentesten L. monocytogenes- Isolaten. Y1 - 2020 UR - https://link.springer.com/article/10.1007/s12268-020-1383-5 U6 - https://doi.org/10.1007/s12268-020-1383-5 SN - 1868-6249 SN - 0947-0867 VL - 26 IS - 3 SP - S. 280 ER - TY - GEN A1 - Commichau, Fabian M. A1 - Lassak, Jürgen T1 - Symposium der VAAM-Fachgruppe Regulation und Signaltransduktion in Prokaryoten: Moonlighting-Proteine und promiskuitive Enzyme T2 - BioSpektrum Y1 - 2020 UR - https://www.biospektrum.de/blatt/d_bs_pdf&_id=1779732 SN - 1868-6249 VL - 26 IS - 6 SP - 661 EP - 662 PB - Springer CY - Heidelberg ER - TY - GEN A1 - Richts, Björn A1 - Lentes, Sabine A1 - Poehlein, Anja A1 - Daniel, Rolf A1 - Commichau, Fabian M. T1 - A Bacillus subtilis ΔpdxT mutant suppresses vitamin B6 limitation by acquiring mutations enhancing pdxS gene dosage and ammonium assimilation T2 - Environmental Microbiology Reports N2 - Pyridoxal‐5’‐phosphate (PLP), the biologically active form of vitamin B6, serves as a cofactor for many enzymes. The Gram‐positive model bacterium Bacillus subtilis synthesizes PLP via the PdxST enzyme complex, consisting of the PdxT glutaminase and the PdxS PLP synthase subunits, respectively. PdxT converts glutamine to glutamate and ammonia of which the latter is channelled to PdxS. At high extracellular ammonium concentrations, the PdxS PLP synthase subunit does not depend on PdxT. Here, we assessed the potential of a B. subtilis ΔpdxT mutant to adapt to PLP limitation at the genome level. The majority of ΔpdxT suppressors had amplified a genomic region containing the pdxS gene. We also identified mutants having acquired as yet undescribed mutations in ammonium assimilation genes, indicating that the overproduction of PdxS and the NrgA ammonium transporter partially relieve vitamin B6 limitation in a ΔpdxT mutant when extracellular ammonium is scarce. Furthermore, we found that PdxS positively affects complex colony formation in B. subtilis. The catalytic mechanism of the PdxS PLP synthase subunit could be the reason for the limited evolution of the enzyme and why we could not identify a PdxS variant producing PLP independently of PdxT at low ammonium concentrations. Y1 - 2021 UR - https://sfamjournals.onlinelibrary.wiley.com/doi/abs/10.1111/1758-2229.12936 U6 - https://doi.org/10.1111/1758-2229.12936 SN - 1758-2229 VL - 13 IS - 2 SP - 218 EP - 233 ER - TY - GEN A1 - Richts, Björn A1 - Commichau, Fabian M. T1 - Underground metabolism facilitates the evolution of novel pathways for vitamin B6 biosynthesis T2 - Applied Microbiology and Biotechnology N2 - The term vitamin B6 is a designation for the vitamers pyridoxal, pyridoxamine, pyridoxine and the respective phosphate esters pyridoxal-5′-phosphate (PLP), pyridoxamine-5′-phosphate and pyridoxine-5′-phosphate. Animals and humans are unable to synthesise vitamin B6. These organisms have to take up vitamin B6 with their diet. Therefore, vitamin B6 is of commercial interest as a food additive and for applications in the pharmaceutical industry. As yet, two naturally occurring routes for de novo synthesis of PLP are known. Both routes have been genetically engineered to obtain bacteria overproducing vitamin B6. Still, major genetic engineering efforts using the existing pathways are required for developing fermentation processes that could outcompete the chemical synthesis of vitamin B6. Recent suppressor screens using mutants of the Gram-negative and Gram-positive model bacteria Escherichia coli and Bacillus subtilis, respectively, carrying mutations in the native pathways or heterologous genes uncovered novel routes for PLP biosynthesis. These pathways consist of promiscuous enzymes and enzymes that are already involved in vitamin B6 biosynthesis. Thus, E. coli and B. subtilis contain multiple promiscuous enzymes causing a so-called underground metabolism allowing the bacteria to bypass disrupted vitamin B6 biosynthetic pathways. The suppressor screens also show the genomic plasticity of the bacteria to suppress a genetic lesion. We discuss the potential of the serendipitous pathways to serve as a starting point for the development of bacteria overproducing vitamin B6. Y1 - 2021 UR - https://link.springer.com/article/10.1007/s00253-021-11199-w U6 - https://doi.org/10.1007/s00253-021-11199-w SN - 1432-0614 SN - 0175-7598 VL - 105 IS - 6 SP - 2297 EP - 2305 ER - TY - GEN A1 - Lilge, Lars A1 - Hertel, Robert A1 - Morabbi Heravi, Kambiz A1 - Henkel, Marius A1 - Commichau, Fabian M. A1 - Hausmann, Rudolf T1 - Draft Genome Sequence of the Type Strain Bacillus subtilis subsp. subtilis DSM10 T2 - Microbiology Resource Announcements N2 - The Bacillus subtilis subsp. subtilis type strain DSM10 has been used as a reference in various studies. However, detailed information about the genome has not been available. Therefore, whole-genome sequencing was performed, and the sequence was compared with that of the related B. subtilis strain NCIB3610. Y1 - 2021 UR - https://mra.asm.org/content/10/10/e00158-21 U6 - https://doi.org/10.1128/MRA.00158-21 SN - 2576-098X VL - 10 IS - 10 SP - 1 EP - 3 ER - TY - GEN A1 - Michalik, Stephan A1 - Reder, Alexander A1 - Richts, Björn A1 - Faßhauer, Patrick A1 - Mäder, Ulrike A1 - Pedreira, Tiago A1 - Poehlein, Anja A1 - Heel, Auke van A1 - Tilburg, Amanda van A1 - Altenbuchner, Josef A1 - Klewing, Anika A1 - Reuß, Daniel A1 - Daniel, Rolf A1 - Commichau, Fabian M. A1 - Kuipers, Oscar A1 - Hamoen, Leendert A1 - Völker, Uwe A1 - Stülke, Jörg T1 - The Bacillus subtilis Minimal Genome Compendium T2 - ACS Synthetic Biology N2 - To better understand cellular life, it is essential to decipher the contribution of individual components and their interactions. Minimal genomes are an important tool to investigate these interactions. Here, we provide a database of 105 fully annotated genomes of a series of strains with sequential deletion steps of the industrially relevant model bacterium Bacillus subtilis starting with the laboratory wild type strain B. subtilis 168 and ending with B. subtilis PG38, which lacks approximately 40% of the original genome. The annotation is supported by sequencing of key intermediate strains as well as integration of literature knowledge for the annotation of the deletion scars and their potential effects. The strain compendium presented here represents a comprehensive genome library of the entire MiniBacillus project. This resource will facilitate the more effective application of the different strains in basic science as well as in biotechnology. Y1 - 2021 UR - https://pubs.acs.org/doi/10.1021/acssynbio.1c00339 U6 - https://doi.org/10.1021/acssynbio.1c00339 SN - 2161-5063 VL - 10 IS - 10 SP - 2767 EP - 2771 ER -