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Merck
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804347

Sigma-Aldrich

3-nitro-N-[(3S)-tetrahydro-2-oxo-furanyl]-Benzeneacetamide

Synonyme(s) :

LasR inhibitor, LuxR activator

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About This Item

Formule empirique (notation de Hill):
C12H12N2O5
Numéro CAS:
942296-29-9
Poids moléculaire :
264.23
Code UNSPSC :
12352200
Nomenclature NACRES :
NA.22

Forme

solid

Température de stockage

−20°C

Application

PHL has varied activity depending on species, for example serving as either a strong LuxR-type receptor activator (e.g.: of LuxR in V. fischeri and of ExpR1 and ExpR2 in Pectobacterium carotovora) or a strong inhibitor (e.g.: of LasR in P. aeruginosa)

Code de la classe de stockage

11 - Combustible Solids

Classe de danger pour l'eau (WGK)

WGK 3

Point d'éclair (°F)

Not applicable

Point d'éclair (°C)

Not applicable

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Andrew G Palmer et al.
Chembiochem : a European journal of chemical biology, 12(1), 138-147 (2010-12-15)
Many bacteria use quorum sensing (QS) to regulate cell-density dependent phenotypes that play critical roles in the maintenance of their associations with eukaryotic hosts. In Gram-negative bacteria, QS is primarily controlled by N-acylated L-homoserine lactone (AHL) signals and their cognate
Grant D Geske et al.
Journal of the American Chemical Society, 129(44), 13613-13625 (2007-10-12)
Bacteria use a language of low molecular weight ligands to assess their population densities in a process called quorum sensing. This chemical signaling process plays a pivotal role both in the pathogenesis of infectious disease and in beneficial symbioses. There

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Blackwell Group – Professor Product Portal

Our laboratory pursues research at the chemistry-microbiology interface. We are deeply interested in the mechanisms by which bacteria sense each other, their environment, and the eukaryotic hosts on which and in which they may reside. One prominent pathway that we study is called quorum sensing, which allows bacteria to assess their local population density and initiate group behaviors at high cell (or “quorate”) density. This pathway allows, for example, many pathogens to amass in large populations prior to attacking their hosts. Bacteria use chemical signals for quorum sensing, and it is the concentration of these signals in a given environment that alerts the bacteria to their current cell number. We are interested in the structures of these signals and how we can reengineer them to either ablate or amplify quorum-sensing networks. Through synthesis and systematic screening, we have identified critical structural features of these signals and non-native functionality that we can install into the signals to tune their function. Thereby, we have developed non-native molecules that strongly inhibit or activate quorum-sensing pathways and modify infection processes. These compounds represent useful tools to explore the role of quorum sensing in many biological processes. We are applying them to both study fundamental aspects of quorum sensing pathways, and examine different types of infections in animals and plants.

Notre équipe de scientifiques dispose d'une expérience dans tous les secteurs de la recherche, notamment en sciences de la vie, science des matériaux, synthèse chimique, chromatographie, analyse et dans de nombreux autres domaines..

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