Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors

Gespeichert in:

Personen und Körperschaften:	Schuller, Astrid, Rödel, Gerhard, Ostermann, Kai
Titel:	Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors
Format:	E-Artikel
Sprache:	Englisch
veröffentlicht:	Basel MDPI (Multidisciplinary Digital Publishing Institute) 2017 Online-Ausg.. 2017
Gesamtaufnahme:	, Sensors (2017), 17(7), ISSN 1424-8220. DOI: 10.3390/s17071506. Artikelnr.: 1506.
Schlagwörter:	Diclofenac Pdr5 Hefe Biosensor Technische Universität Dresden Publikationsfonds Yeast Publishing Fund
Quelle:	Qucosa


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245			\|a Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors
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520			\|a The commonly used drug diclofenac is an important environmental anthropogenic pollutant. Currently, detection of diclofenac is mainly based on chemical and physical methods. Here we describe a yeast biosensor that drives the diclofenac-dependent expression of a recombinant fluorescent protein from the authentic promoter of the PDR5 gene. This key component of the pleiotropic drug response encodes a multidrug transporter that is involved in cellular detoxification. We analyse the effects on diclofenac sensitivity of artificial PDR5 promoter derivatives in wild-type and various yeast mutant strains. This approach enabled us to generate sensor strains with elevated drug sensitivity.
650			\|a Diclofenac
650			\|a Pdr5
650			\|a Hefe
650			\|a Biosensor
650			\|a Technische Universität Dresden
650			\|a Publikationsfonds
650			\|a Diclofenac
650			\|a Pdr5
650			\|a Yeast
650			\|a Biosensor
650			\|a Technische Universität Dresden
650			\|a Publishing Fund
700			\|a Rödel, Gerhard
700			\|a Ostermann, Kai
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contents	The commonly used drug diclofenac is an important environmental anthropogenic pollutant. Currently, detection of diclofenac is mainly based on chemical and physical methods. Here we describe a yeast biosensor that drives the diclofenac-dependent expression of a recombinant fluorescent protein from the authentic promoter of the PDR5 gene. This key component of the pleiotropic drug response encodes a multidrug transporter that is involved in cellular detoxification. We analyse the effects on diclofenac sensitivity of artificial PDR5 promoter derivatives in wild-type and various yeast mutant strains. This approach enabled us to generate sensor strains with elevated drug sensitivity.
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spelling	Schuller, Astrid, Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors, Basel MDPI (Multidisciplinary Digital Publishing Institute) 2017, Online-Ausg. 2017 Online-Ressource (Text) Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, The commonly used drug diclofenac is an important environmental anthropogenic pollutant. Currently, detection of diclofenac is mainly based on chemical and physical methods. Here we describe a yeast biosensor that drives the diclofenac-dependent expression of a recombinant fluorescent protein from the authentic promoter of the PDR5 gene. This key component of the pleiotropic drug response encodes a multidrug transporter that is involved in cellular detoxification. We analyse the effects on diclofenac sensitivity of artificial PDR5 promoter derivatives in wild-type and various yeast mutant strains. This approach enabled us to generate sensor strains with elevated drug sensitivity., Diclofenac, Pdr5, Hefe, Biosensor, Technische Universität Dresden, Publikationsfonds, Yeast, Publishing Fund, Rödel, Gerhard, Ostermann, Kai, Sensors (2017), 17(7), ISSN 1424-8220. DOI: 10.3390/s17071506. Artikelnr.: 1506., text/html https://nbn-resolving.org/urn:nbn:de:bsz:14-qucosa-230652 Online-Zugriff
spellingShingle	Schuller, Astrid, Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors, The commonly used drug diclofenac is an important environmental anthropogenic pollutant. Currently, detection of diclofenac is mainly based on chemical and physical methods. Here we describe a yeast biosensor that drives the diclofenac-dependent expression of a recombinant fluorescent protein from the authentic promoter of the PDR5 gene. This key component of the pleiotropic drug response encodes a multidrug transporter that is involved in cellular detoxification. We analyse the effects on diclofenac sensitivity of artificial PDR5 promoter derivatives in wild-type and various yeast mutant strains. This approach enabled us to generate sensor strains with elevated drug sensitivity., Diclofenac, Pdr5, Hefe, Biosensor, Technische Universität Dresden, Publikationsfonds, Yeast, Publishing Fund
title	Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors
title_auth	Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors
title_full	Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors
title_fullStr	Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors
title_full_unstemmed	Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors
title_in_hierarchy
title_short	Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors
title_sort	tuning the sensitivity of the pdr5 promoter-based detection of diclofenac in yeast biosensors
title_unstemmed	Tuning the Sensitivity of the PDR5 Promoter-Based Detection of Diclofenac in Yeast Biosensors
topic	Diclofenac, Pdr5, Hefe, Biosensor, Technische Universität Dresden, Publikationsfonds, Yeast, Publishing Fund
topic_facet	Diclofenac, Pdr5, Hefe, Biosensor, Technische Universität Dresden, Publikationsfonds, Yeast, Publishing Fund
url	https://nbn-resolving.org/urn:nbn:de:bsz:14-qucosa-230652
urn	urn:nbn:de:bsz:14-qucosa-230652
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