Publikation: Inhibitors of Bacterial Swarming Behavior
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2020
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European Union (EU): 291784
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ZIF-Marie-Curie: Zukunftskolleg Incoming Fellowship Programme (COFUND)
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Core Facility der Universität Konstanz
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Chemistry - A European Journal. Wiley. 2020, 26(5), pp. 964-979. ISSN 0947-6539. eISSN 1521-3765. Available under: doi: 10.1002/chem.201901961
Zusammenfassung
Bacteria can migrate in groups of flagella-driven cells over semisolid surfaces. This coordinated form of motility is called swarming behavior. Swarming is associated with enhanced virulence and antibiotic resistance of various human pathogens and may be considered as favorable adaptation to the diverse challenges that microbes face in rapidly changing environments. Consequently, the differentiation of motile swarmer cells is tightly regulated and involves multi-layered signaling networks. Controlling swarming behavior is of major interest for the development of novel anti-infective strategies. In addition, compounds that block swarming represent important tools for more detailed insights into the molecular mechanisms of the coordination of bacterial population behavior. Over the past decades there has been major progress in the discovery of small molecule modulators and mechanisms that allow selective inhibition of swarming behavior. We will here provide an overview of the achievements in the field and identify future directions and challenges.
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540 Chemie
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ISO 690
RÜTSCHLIN, Sina, Thomas BÖTTCHER, 2020. Inhibitors of Bacterial Swarming Behavior. In: Chemistry - A European Journal. Wiley. 2020, 26(5), pp. 964-979. ISSN 0947-6539. eISSN 1521-3765. Available under: doi: 10.1002/chem.201901961BibTex
@article{Rutschlin2020-01-29Inhib-46241,
year={2020},
doi={10.1002/chem.201901961},
title={Inhibitors of Bacterial Swarming Behavior},
number={5},
volume={26},
issn={0947-6539},
journal={Chemistry - A European Journal},
pages={964--979},
author={Rütschlin, Sina and Böttcher, Thomas}
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<dcterms:abstract xml:lang="eng">Bacteria can migrate in groups of flagella-driven cells over semisolid surfaces. This coordinated form of motility is called swarming behavior. Swarming is associated with enhanced virulence and antibiotic resistance of various human pathogens and may be considered as favorable adaptation to the diverse challenges that microbes face in rapidly changing environments. Consequently, the differentiation of motile swarmer cells is tightly regulated and involves multi-layered signaling networks. Controlling swarming behavior is of major interest for the development of novel anti-infective strategies. In addition, compounds that block swarming represent important tools for more detailed insights into the molecular mechanisms of the coordination of bacterial population behavior. Over the past decades there has been major progress in the discovery of small molecule modulators and mechanisms that allow selective inhibition of swarming behavior. We will here provide an overview of the achievements in the field and identify future directions and challenges.</dcterms:abstract>
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