Correction: Exposure of Chlorpromazine to 266 nm Laser Beam Generates New Species with Antibacterial Properties: Contributions to Development of a New Process for Drug Discovery.

Correction: Exposure of Chlorpromazine to 266 nm Laser Beam Generates New Species with Antibacterial Properties: Contributions to Development of a New Process for Drug Discovery.

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Bibliographic Details
Main Authors: Mihail Lucian Pascu, Balazs Danko, Ana Martins, Nikoletta Jedlinszki, Tatiana Alexandru, Viorel Nastasa, Mihai Boni, Andra Militaru, Ionut Relu Andrei, Angela Staicu, Attila Hunyadi, Seamus Fanning, Leonard Amaral
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3613246
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spelling doaj-4e214fa139ea4885b0726b523270d7ea2020-11-24T21:56:40ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-018310.1371/annotation/1ba396af-ad78-4740-b9f8-93cf03661b35Correction: Exposure of Chlorpromazine to 266 nm Laser Beam Generates New Species with Antibacterial Properties: Contributions to Development of a New Process for Drug Discovery.Mihail Lucian PascuBalazs DankoAna MartinsNikoletta JedlinszkiTatiana AlexandruViorel NastasaMihai BoniAndra MilitaruIonut Relu AndreiAngela StaicuAttila HunyadiSeamus FanningLeonard Amaralhttp://europepmc.org/articles/PMC3613246
collection DOAJ
language English
format Article
sources DOAJ
author Mihail Lucian Pascu
Balazs Danko
Ana Martins
Nikoletta Jedlinszki
Tatiana Alexandru
Viorel Nastasa
Mihai Boni
Andra Militaru
Ionut Relu Andrei
Angela Staicu
Attila Hunyadi
Seamus Fanning
Leonard Amaral
spellingShingle Mihail Lucian Pascu
Balazs Danko
Ana Martins
Nikoletta Jedlinszki
Tatiana Alexandru
Viorel Nastasa
Mihai Boni
Andra Militaru
Ionut Relu Andrei
Angela Staicu
Attila Hunyadi
Seamus Fanning
Leonard Amaral
Correction: Exposure of Chlorpromazine to 266 nm Laser Beam Generates New Species with Antibacterial Properties: Contributions to Development of a New Process for Drug Discovery.
PLoS ONE
author_facet Mihail Lucian Pascu
Balazs Danko
Ana Martins
Nikoletta Jedlinszki
Tatiana Alexandru
Viorel Nastasa
Mihai Boni
Andra Militaru
Ionut Relu Andrei
Angela Staicu
Attila Hunyadi
Seamus Fanning
Leonard Amaral
author_sort Mihail Lucian Pascu
title Correction: Exposure of Chlorpromazine to 266 nm Laser Beam Generates New Species with Antibacterial Properties: Contributions to Development of a New Process for Drug Discovery.
title_short Correction: Exposure of Chlorpromazine to 266 nm Laser Beam Generates New Species with Antibacterial Properties: Contributions to Development of a New Process for Drug Discovery.
title_full Correction: Exposure of Chlorpromazine to 266 nm Laser Beam Generates New Species with Antibacterial Properties: Contributions to Development of a New Process for Drug Discovery.
title_fullStr Correction: Exposure of Chlorpromazine to 266 nm Laser Beam Generates New Species with Antibacterial Properties: Contributions to Development of a New Process for Drug Discovery.
title_full_unstemmed Correction: Exposure of Chlorpromazine to 266 nm Laser Beam Generates New Species with Antibacterial Properties: Contributions to Development of a New Process for Drug Discovery.
title_sort correction: exposure of chlorpromazine to 266 nm laser beam generates new species with antibacterial properties: contributions to development of a new process for drug discovery.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
url http://europepmc.org/articles/PMC3613246
work_keys_str_mv AT mihaillucianpascu correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT balazsdanko correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT anamartins correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT nikolettajedlinszki correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT tatianaalexandru correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT viorelnastasa correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT mihaiboni correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT andramilitaru correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT ionutreluandrei correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT angelastaicu correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT attilahunyadi correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT seamusfanning correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
AT leonardamaral correctionexposureofchlorpromazineto266nmlaserbeamgeneratesnewspecieswithantibacterialpropertiescontributionstodevelopmentofanewprocessfordrugdiscovery
_version_ 1725857891856941056

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