Your search keyword '"Birgit Hägele"' showing total 3 results

1. Deep (Meta)genomics and (Meta)transcriptome Analyses of Fungal and Bacteria Consortia From Aircraft Tanks and Kerosene Identify Key Genes in Fuel and Tank Corrosion

Author

Ines Krohn, Lutgardis Bergmann, Minyue Qi, Daniela Indenbirken, Yuchen Han, Pablo Perez-Garcia, Elena Katzowitsch, Birgit Hägele, Tim Lübcke, Christian Siry, Ralf Riemann, Malik Alawi, and Wolfgang R. Streit

Subjects

fuel contamination, biofilm formation, biocorrosion, biofouling, bacteria and fungi, omics analysis, Microbiology, QR1-502

Abstract

Microbial contamination of fuels, associated with a wide variety of bacteria and fungi, leads to decreased product quality and can compromise equipment performance by biofouling or microbiologically influenced corrosion. Detection and quantification of microorganisms are critical in monitoring fuel systems for an early detection of microbial contaminations. To address these challenges, we have analyzed six metagenomes, one transcriptome, and more than 1,200 fluid and swab samples taken from fuel tanks or kerosene. Our deep metagenome sequencing and binning approaches in combination with RNA-seq data and qPCR methods implied a metabolic symbiosis between fungi and bacteria. The most abundant bacteria were affiliated with α-, β-, and γ-Proteobacteria and the filamentous fungi Amorphotheca. We identified a high number of genes, which are related to kerosene degradation and biofilm formation. Surprisingly, a large number of genes coded enzymes involved in polymer degradation and potential bio-corrosion processes. Thereby, the transcriptionally most active microorganisms were affiliated with the genera Methylobacteria, Pseudomonas, Kocuria, Amorpotheka, Aspergillus, Fusarium, and Penicillium. Many not yet cultured bacteria and fungi appeared to contribute to the biofilm transcriptional activities. The largest numbers of transcripts were observed for dehydrogenase, oxygenase, and exopolysaccharide production, attachment and pili/flagella-associated proteins, efflux pumps, and secretion systems as well as lipase and esterase activity.

Published

2021

2. Deep (Meta)genomics and (Meta)transcriptome Analyses of Fungal and Bacteria Consortia From Aircraft Tanks and Kerosene Identify Key Genes in Fuel and Tank Corrosion

Author

Minyue Qi, Daniela Indenbirken, Malik Alawi, Birgit Hägele, Ines Krohn, Tim Lübcke, Christian W. Siry, Lutgardis Bergmann, Wolfgang R. Streit, Ralf Riemann, Yuchen Han, Pablo Perez-Garcia, and Elena Katzowitsch

Subjects

Microbiology (medical), Fusarium, fuel contamination, kerosene and aircraft, biology, Microorganism, Pseudomonas, Biofilm, bacteria and fungi, biocorrosion, biology.organism_classification, Microbiology, QR1-502, Kocuria, Metagenomics, Penicillium, biofouling, biofilm formation, omics analysis, Bacteria, Original Research

Abstract

Microbial contamination of fuels, associated with a wide variety of bacteria and fungi, leads to decreased product quality and can compromise equipment performance by biofouling or microbiologically influenced corrosion. Detection and quantification of microorganisms are critical in monitoring fuel systems for an early detection of microbial contaminations. To address these challenges, we have analyzed six metagenomes, one transcriptome, and more than 1,200 fluid and swab samples taken from fuel tanks or kerosene. Our deep metagenome sequencing and binning approaches in combination with RNA-seq data and qPCR methods implied a metabolic symbiosis between fungi and bacteria. The most abundant bacteria were affiliated with α-, β-, and γ-Proteobacteria and the filamentous fungiAmorphotheca. We identified a high number of genes, which are related to kerosene degradation and biofilm formation. Surprisingly, a large number of genes coded enzymes involved in polymer degradation and potential bio-corrosion processes. Thereby, the transcriptionally most active microorganisms were affiliated with the generaMethylobacteria, Pseudomonas, Kocuria, Amorpotheka, Aspergillus, Fusarium, and Penicillium. Many not yet cultured bacteria and fungi appeared to contribute to the biofilm transcriptional activities. The largest numbers of transcripts were observed for dehydrogenase, oxygenase, and exopolysaccharide production, attachment and pili/flagella-associated proteins, efflux pumps, and secretion systems as well as lipase and esterase activity.

Published

2021

3. Märchen als Türöffner

Author

Birgit Hägele

Abstract

Menschen mit Demenz und Kinder leben oft in unmittelbarer Nachbarschaft, ohne sich jemals zu begegnen. Das vorgestellte intergenerative Marchenprojekt will beispielhaft Moglichkeiten aufzeigen, wie das freie Erzahlen von Marchen Generationen verbinden und einen kreativen Zugang zu Menschen mit Demenz und Kindern schaffen kann. Die freie Marchenerzahlung spricht moglichst viele Sinne an und bietet Demenzkranken und Kindern Raum fur biografische Anknupfungspunkte und gestisches Spiel. Nach und nach entstand in diesem Projekt eine familiare Atmosphare, in der sich Jung und Alt zwanglos begegnen und nicht nur den Marchen lauschen, sondern auch gemeinsam Jahresfeste feiern und sich an Orten auserhalb der Tagespflege in der Nachbarschaft begegnen. Die Autorin und Geschichtenerzahlerin Birgit Hagele verrat, wie so manche Hurde genommen werden kann, damit derartige Projekte Wirklichkeit werden und Alt und Jung gemeinsam ins Marchenland reisen konnen.

Published

2016