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A Novel AI-2 Synthase for Cross-Domain Communication

datacite.rightsrestricted
dc.contributor.advisorBassler, Bonnie Lynn
dc.contributor.authorVasquez, Juliana
dc.date.accessioned2025-08-08T18:01:36Z
dc.date.available2025-08-08T18:01:36Z
dc.date.issued2025-04-18
dc.description.abstractBacterial cells communicate using quorum sensing, a process that involves the exchange of signal molecules known as autoinducers. While autoinducers were once thought to be species specific, the Bassler lab has characterized a “universal” autoinducer called AI-2. Interdomain communication was discovered when mammalian cells were found to produce a mimic of AI-2 capable of binding to AI-2 receptors in Vibrio harveyi, inducing bioluminescence. While the structure of this mimic has not been reported, recent data suggest that the mimic is xylosone. Despite the absence of a known enzyme for xylosone production in mammalian cells, previous literature characterizes pyranose oxidases as potential xylosone synthases, found throughout fungi and bacteria. In this thesis, it is shown that a fungal pyranose oxidase produces an AI-2 mimic, as measured by both high resolution mass spectrometry and a bioactivity assay in V. harveyi. This research lays the foundation for future work that could provide insights into AI-2 mediated chemical communication between bacteria and eukaryotes.
dc.identifier.urihttps://theses-dissertations.princeton.edu/handle/88435/dsp01tm70mz64d
dc.language.isoen
dc.titleA Novel AI-2 Synthase for Cross-Domain Communication
dc.typePrinceton University Senior Theses
dspace.entity.typePublication
dspace.workflow.startDateTime2025-04-18T20:41:17.893Z
pu.contributor.authorid920295710
pu.date.classyear2025
pu.departmentMolecular Biology

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